examiner edward says: the key to success is being able to use the equations accurately and then...
TRANSCRIPT
![Page 1: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/1.jpg)
LESSON 1
Examiner Edward says
The key to success is being able to use the equations accurately and then write the correct units
A TIP FROM THE TOP
Introducinghelliphellip
The DATA SHEET
You get this sheet with the exam
Contains all of the equations that you will need to choose during the exam
THEREFORE USE IT
TO GET A
C
Using the equationsTo get a Grade C
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
STEP 1 Choose the correct equation from the
data sheet
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000 Whatrsquos missing
I WONDER WHAT
FORCES ARE MEASURED
IN
THINK ABOUT IT
NEWTONS
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 2: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/2.jpg)
Examiner Edward says
The key to success is being able to use the equations accurately and then write the correct units
A TIP FROM THE TOP
Introducinghelliphellip
The DATA SHEET
You get this sheet with the exam
Contains all of the equations that you will need to choose during the exam
THEREFORE USE IT
TO GET A
C
Using the equationsTo get a Grade C
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
STEP 1 Choose the correct equation from the
data sheet
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000 Whatrsquos missing
I WONDER WHAT
FORCES ARE MEASURED
IN
THINK ABOUT IT
NEWTONS
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 3: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/3.jpg)
Introducinghelliphellip
The DATA SHEET
You get this sheet with the exam
Contains all of the equations that you will need to choose during the exam
THEREFORE USE IT
TO GET A
C
Using the equationsTo get a Grade C
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
STEP 1 Choose the correct equation from the
data sheet
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000 Whatrsquos missing
I WONDER WHAT
FORCES ARE MEASURED
IN
THINK ABOUT IT
NEWTONS
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 4: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/4.jpg)
TO GET A
C
Using the equationsTo get a Grade C
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
STEP 1 Choose the correct equation from the
data sheet
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000 Whatrsquos missing
I WONDER WHAT
FORCES ARE MEASURED
IN
THINK ABOUT IT
NEWTONS
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 5: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/5.jpg)
Using the equationsTo get a Grade C
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
STEP 1 Choose the correct equation from the
data sheet
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000 Whatrsquos missing
I WONDER WHAT
FORCES ARE MEASURED
IN
THINK ABOUT IT
NEWTONS
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 6: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/6.jpg)
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000 Whatrsquos missing
I WONDER WHAT
FORCES ARE MEASURED
IN
THINK ABOUT IT
NEWTONS
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 7: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/7.jpg)
I WONDER WHAT
FORCES ARE MEASURED
IN
THINK ABOUT IT
NEWTONS
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 8: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/8.jpg)
NEWTONS
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 9: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/9.jpg)
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 10: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/10.jpg)
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 11: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/11.jpg)
TO GET A
B
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 12: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/12.jpg)
Examiner Edward says
You will need to be able to rearrange the formula and use it
A TIP FROM THE TOP
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 13: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/13.jpg)
Weight = Mass X Gravity
Transfer the equation above into
the triangle
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 14: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/14.jpg)
Weight
Mass Gravity
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 15: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/15.jpg)
ERIC EARTHrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for
MASS
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 16: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/16.jpg)
Weight
Mass Gravity
TAKE YOUR HAND
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 17: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/17.jpg)
Weight
Mass Gravity
PLACE IT OVER
MASS
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 18: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/18.jpg)
Weight
Mass Gravity
WHATrsquoS LEFT
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 19: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/19.jpg)
Mass = Weight divide Gravity
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 20: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/20.jpg)
A man has a mass of 150kg and a weight of 240N when on the Moon
Write out the equation to work out the gravitational field strength and then
use it to calculate the answer Show all of your working
Gravity = Weight divide Mass = 240 divide 150
= 16 Nkg
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 21: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/21.jpg)
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 22: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/22.jpg)
ANYONE WANT AN
A
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 23: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/23.jpg)
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
First one to spot the correct equation gets
25 Vivos
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 24: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/24.jpg)
But in this equation there are more than 3 factors so we canrsquot use the equation triangle
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 25: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/25.jpg)
Donrsquot PANIC
BOB THE BUILDER
ldquoWe can FIX IThelliphellipbut yoursquoll need to watch
carefullyrdquo
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 26: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/26.jpg)
Write down the original kinetic energy equation
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 1
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 27: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/27.jpg)
The question wants you to work out the mass so you must take everything else over to the other side
KE = frac12 x MASS X VELOCITY2
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 2
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 28: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/28.jpg)
Whatever the factors did on one side they must do the opposite on the other So frac12 and velocity are multiplied by mass on one side so must be divided on the other side
KE divide ( frac12 x VELOCITY2) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 3
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 29: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/29.jpg)
Now use your rearranged equation to work out the question
KE divide ( frac12 x VELOCITY2) = MASS
25000 divide ( frac12 x 52) = MASS
What is the mass of an elephant
that has a kinetic energy of 25000J and moves with a
velocity of 5 ms
STEP 4
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 30: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/30.jpg)
What is the mass of an elephant that has a kinetic energy of 25000J and
moves with a velocity of 5 ms
MASS = 2000 kg
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 31: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/31.jpg)
Examiner Edward says
The key to success is being to use the equations accurately and
then write the correct units
A TIP FROM THE TOP(IrsquoM BACK)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 32: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/32.jpg)
Usain is built like a unit and he just loves units And he wants you to feel the love too
Therefore every time we meet a new factor write down the units at the back of your book
USAINrsquoS UNITS
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 33: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/33.jpg)
USAINrsquoS UNITS
FORCE NEWTONS
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 34: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/34.jpg)
THEM UPFORCE kg
ENERGY ms
MASS W
GRAVITATIONAL FIELD J
SPEED ms2
VELOCITY A
ACCELERATION V
TIME TAKEN N
POWER m
DISTANCE ms
CURRENT Nkg
VOLTAGE seconds
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 35: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/35.jpg)
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 36: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/36.jpg)
LESSON 2
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 37: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/37.jpg)
Look at the objects below and write down any force that you can think of that is
acting on them
ldquoBe FORCEFULrdquo
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 38: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/38.jpg)
How many did you get
gravity friction air resistance water resistance upthrust thrust
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 39: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/39.jpg)
HOMERrsquoS HELPFUL HINT
Air resistance and water
resistance are collectively
known as DRAG
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 40: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/40.jpg)
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to name the forces that act on objects and be able to draw them in the right direction on a force diagram (grade D)
MOST Will UNDERSTAND how to use simple equations to work out calculations (grade C)
SOME Will BE ABLE to rearrange the formula to get the correct equation and then apply to gain the correct answer with the correct units (grade B)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 41: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/41.jpg)
FORCEDIAGRAMS
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 42: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/42.jpg)
For each of these objects draw a force diagram with the direction of the acting force shown
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 43: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/43.jpg)
ldquoThe sum of the forward forces acting on an object subtract the
backward forcesrdquo
RESULTANTFORCES
WORDS
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 44: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/44.jpg)
Work out the following resultant forces
TASK
FORWARD FORCES (N)
BACKWARD FORCES (N)
75 25
75 75
75 100
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 45: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/45.jpg)
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 46: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/46.jpg)
Scenario 1
Friction 8N
Drag 2N
Thrust 10N
So resultant force = ON
Car will stay moving at a constant speed
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 47: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/47.jpg)
Scenario 2
Friction 6N
Drag 2N
Thrust 10N
So resultant force = 2N forwards
Car will accelerate
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 48: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/48.jpg)
Scenario 3
Friction 11N
Drag 4N
Thrust 10N
So resultant force = 5N backwards Car will
decelerate
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 49: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/49.jpg)
If the forward forces are equal to the backward forces then they are _____________ and the resultant force = _____N In this case the object will continue doing as it was - this could be staying still or to continue moving at a ___________ speedIf forces are ________ then the object changes speed and this is affected by the _____________ force If there is more force ________ the resultant force will be ___________ and the object accelerates If there is more force backwards the resultant force is ___________ and then the object will ________________
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 50: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/50.jpg)
If the forward forces are equal to the backward forces then they are balanced and the resultant force = 0N In this case the object will continue doing as it was - this could be staying still or to continue moving at a constant speedIf forces are unbalanced then the object changes speed and this is affected by the resultant force If there is more force forwards the resultant force will be positive and the object accelerates If there is more force backwards the resultant force is negative and then the object will decelerate
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 51: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/51.jpg)
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 52: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/52.jpg)
To try1 A stone is dropped into a pond The weight
of the stone is 8N The water resistance is 8N What happens to the speed of the stone Explain your answer
2 A car is travelling at 15ms It has a thrust of 100N The friction is 75N What happens to the speed of the car Explain your answer
3 A plane is travelling through the air at 200ms If the plane slows down when there is an air resistance of 10000N what must be the size of the thrust force
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 53: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/53.jpg)
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 54: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/54.jpg)
A lorry is travelling at 15ms ndash then the resultant forces below acts on it What is the
outcomeFORWARD
FORCES (N)BACKWARD FORCES (N)
RESULTANT FORCE (N)
OUTCOME
75 25 +50
75 75 0
75 100 -25
JUST CHECKING
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 55: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/55.jpg)
Assessment
Work out the acceleration of the lorry shown above
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 56: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/56.jpg)
If I was a gambler I would bet there were two different answers found by the pupilrsquos in this class
Answer A
10 ms2
Answer B
7 ms2
But which is correct
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 57: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/57.jpg)
Why
The force used in the equation has to be the resultant forceSo 5000 ndash 1500 = 3500N
Greg and the car have a mass of 500kg
Friction and drag 1500N
Thrust 5000N
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 58: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/58.jpg)
LESSON 3
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 59: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/59.jpg)
Olympic CHAMPION
Usain gets out of the blocks when the gun goes ndash
what must he do then
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 60: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/60.jpg)
ACCELERATE
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 61: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/61.jpg)
Acceleration = Change in velocity divide Time taken
Or
Acceleration = Force divide Mass
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 62: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/62.jpg)
USAINrsquoS UNITS
ACCELERATION ms2
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 63: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/63.jpg)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 64: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/64.jpg)
A plane went from being stationary at the start of the runway to moving at
300 ms in 20 seconds What was the acceleration
Acceleration = Change in velocity divide Time taken
= 300 divide 20 = 15 ms2
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 65: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/65.jpg)
Volunteer please
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 66: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/66.jpg)
A bus is travelling along at 20 ms It then accelerates for 10 seconds and reaches the velocity of 80 ms What
is the acceleration
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 67: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/67.jpg)
Com
petiti
on T
ime
Welcome to the ACCELERATION OLYMPICS
![Page 68: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/68.jpg)
Welcome to the ACCELERATION OLYMPICS
![Page 69: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/69.jpg)
Look at the animals and their race details below Work out the order of these animals from the lowest to the highest by
calculating their accelerations
From 0ms to
9ms in 3 seconds
From 10ms to 25ms in
3 seconds
From 2ms to 10ms in
4 seconds
From 5ms to 25ms in
2 seconds
From 0ms to 5ms in
10 seconds
THE ACCELERATION OLYMPICS
IN 5th PLACE
5 divide 10 = 05ms2
IN 4th PLACE
8 divide 4 = 2ms2
IN 3rd PLACE
9 divide 3 = 3ms2
IN 2nd PLACE
15 divide 3 = 5ms2
THE WINNER
20 divide 2 = 10ms2
Q But what about
working out the change
in velocity or the time
taken
So thatrsquos how to work
out the acceleration
Volunteer please
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 70: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/70.jpg)
IN 5th PLACE
5 divide 10 = 05ms2
IN 4th PLACE
8 divide 4 = 2ms2
IN 3rd PLACE
9 divide 3 = 3ms2
IN 2nd PLACE
15 divide 3 = 5ms2
THE WINNER
20 divide 2 = 10ms2
Q But what about
working out the change
in velocity or the time
taken
So thatrsquos how to work
out the acceleration
Volunteer please
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 71: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/71.jpg)
IN 4th PLACE
8 divide 4 = 2ms2
IN 3rd PLACE
9 divide 3 = 3ms2
IN 2nd PLACE
15 divide 3 = 5ms2
THE WINNER
20 divide 2 = 10ms2
Q But what about
working out the change
in velocity or the time
taken
So thatrsquos how to work
out the acceleration
Volunteer please
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 72: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/72.jpg)
IN 3rd PLACE
9 divide 3 = 3ms2
IN 2nd PLACE
15 divide 3 = 5ms2
THE WINNER
20 divide 2 = 10ms2
Q But what about
working out the change
in velocity or the time
taken
So thatrsquos how to work
out the acceleration
Volunteer please
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 73: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/73.jpg)
IN 2nd PLACE
15 divide 3 = 5ms2
THE WINNER
20 divide 2 = 10ms2
Q But what about
working out the change
in velocity or the time
taken
So thatrsquos how to work
out the acceleration
Volunteer please
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 74: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/74.jpg)
THE WINNER
20 divide 2 = 10ms2
Q But what about
working out the change
in velocity or the time
taken
So thatrsquos how to work
out the acceleration
Volunteer please
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 75: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/75.jpg)
Q But what about
working out the change
in velocity or the time
taken
So thatrsquos how to work
out the acceleration
Volunteer please
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 76: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/76.jpg)
Volunteer please
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 77: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/77.jpg)
Transfer the equation above into the triangle
Acceleration = Change in velocity divide time taken
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 78: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/78.jpg)
Change
Acceleration Time
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 79: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/79.jpg)
EINSTEINrsquoS TIP OF THE DAY
Use the cover up rule to work out the equation for change
in velocity
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 80: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/80.jpg)
TAKE YOUR HAND
Change
Acceleration Time
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 81: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/81.jpg)
PLACE IT
OVER CHANG
E
Change
Acceleration Time
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 82: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/82.jpg)
WHATrsquoS LEFT
Change
Acceleration Time
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 83: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/83.jpg)
Change in velocity = Acceleration X Time taken
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 84: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/84.jpg)
NOW YOU TRY
Use the cover up rule to work out the equation for
Time taken
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 85: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/85.jpg)
Time taken = Change in velocity divide Acceleration
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 86: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/86.jpg)
TASK
Do the questions on the sheet on your desk to work out the acceleration time taken or change in velocity
SHOW YOUR WORKING
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 87: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/87.jpg)
Lesson objectivesHave we hit any yet
ALL Will UNDERSTAND the definition of a resultant force and will BE ABLE to work out the resultant forces in given situations (grade C)
MOST Will UNDERSTAND how different resultant forces affect the movement of an object (grade B)
SOME Will BE ABLE to explain what happens to an object with reference to the resultant force (grade A)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 88: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/88.jpg)
Acceleration = Change in velocity divide Time taken
or
Acceleration = Force divide Mass
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 89: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/89.jpg)
TASK
Acceleration = Force divide Mass
Using the cover up technique that you have seen in this lesson write down the other two equations that can be made from the one above Then use your equations to
answer the question below
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the car
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 90: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/90.jpg)
Mass = Force divide Acceleration
= 1500 divide 6= 250kg
SELF ASSESS
A car accelerates at 6 ms2 when a resultant force of +1500N acts on it What is the mass of the
car
Give yourself 1 mark for each of
the following
The equation The working The answer The correct
units
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 91: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/91.jpg)
LESSON 4
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 92: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/92.jpg)
Time (seconds) Velocity (ms)
0 0
5 10
10 20
15 30
20 30
25 30
30 45
35 60
40 60
45 0
Draw a velocity-time (line) graph using the results below
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 93: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/93.jpg)
Give them one mark for each of the ticks they achieved
Drawn as a line graph
Time on the x axis and Velocity on the y axis
Both axes labelled with a title AND units
Even scale used on both axes
All points plotted accurately
Straight lines drawn between the points
PEER ASSESS
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 94: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/94.jpg)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
Where is acceleration
on this graph
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 95: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/95.jpg)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
But which one is the
greater acceleration
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 96: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/96.jpg)
HOMERrsquoS HELPFUL HINT
The bigger the acceleration the steeper the line
on the graph
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 97: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/97.jpg)
TASK
Work out the acceleration at the following points1 Between 0 ndash 15 seconds
2 Between 25 ndash 35 seconds
3 Between 40 ndash 45 seconds
SHOW YOUR WORKING
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 98: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/98.jpg)
Velocity(ms)
Time(seconds)
SELF ASSESS
30 divide 15 = 2 ms2
30 divide 10 = 3 ms2 Give yourself 1 mark for each of
the following
The working The answer The correct
units-60 divide 5 = -12 ms2
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 99: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/99.jpg)
99ANYONE GET
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 100: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/100.jpg)
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 101: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/101.jpg)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
So what about here
Constant velocity
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 102: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/102.jpg)
Velocity-Time Graph
Velocity(ms)
Time(seconds)
And here
Deceleration
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 103: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/103.jpg)
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 104: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/104.jpg)
TASK
Use the words at the bottom of the sheet to complete the passage on velocity-time graphs
Complete the passage on
velocity-time graphs
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 105: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/105.jpg)
A velocity time graph can be used to show the different motions of an object An object is _______________ when there is a line which looks like _____ The steeper the line the ___________ the acceleration In this case the resultant force acting on the object must be ____________ as there are more ____________ forces than backward forces
A horizontal line on the graph means that the object is moving at a _____________ velocity In this case the resultant force must be _____ as the forward forces __________ the backward forces
Deceleration is shown on a graph with a line that looks like _____ When a car decelerates the forward forces are _______ than the backward forces and therefore the __________ force is ___________
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 106: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/106.jpg)
A velocity time graph can be used to show the different motions of an object An object is accelerating when there is a line which looks like The steeper the line the greater the acceleration In this case the resultant force acting on the object must be positive as there are more forward forces than backward forces
A horizontal line on the graph means that the object is moving at a constant velocity In this case the resultant force must be zero as the forward forces equal the backward forces
Deceleration is shown on a graph with a line that looks like When a car decelerates the forward forces are less than the backward forces and therefore the resultant force is negative
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 107: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/107.jpg)
Lesson objectivesHave we hit any yet
ALL Will BE ABLE to use a velocity-time graph to recognise when an object is accelerating decelerating or moving at a constant velocity (grade C)
MOST Will BE ABLE to use a velocity-time graph to work out the acceleration (grade B)
SOME Will BE ABLE to explain how the resultant forces acting on an object affects its motion and how this will be shown on the velocity-time graph (grade A)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 108: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/108.jpg)
Look at the table below and work out which of the rows is correct
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 109: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/109.jpg)
ROW Thrust (N) Drag (N) Resultant force (N)
Velocity-time
graph
A 100 100 0
B 100 75 -25
C 100 125 -25
D 100 75 +25
JUST CHECKING
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 110: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/110.jpg)
LESSON 5
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 111: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/111.jpg)
Flopsy has escaped from her hutch and is now loose on the
road She has found herself onto the busy A road near the house
and has run out in front of Greg in his car
Greg has just noticed her and being the rabbit lover that he is he really hopes he stops in time
FINGERS CROSSED FOR FLOPSY
What two things have to happen before
he stops
STOPPING DISTANCE
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 112: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/112.jpg)
Stopping distance = Thinking distance + Braking distance
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 113: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/113.jpg)
ldquoThe distance that an object travels from the point the
stimulus is seen until the point when the object comes to a haltrdquo
STOPPING DISTANCE
WORDS
THINKING DISTANCE BRAKING DISTANCEldquoThe distance that an object
travels from the point the stimulus is seen until the point when the brake is
appliedrdquo
ldquoThe distance that an object travels from the point the brake is applied until the
point when the object comes to a haltrdquo
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 114: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/114.jpg)
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 115: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/115.jpg)
BAD DAY FOR FLOPSY
Flopsy wishes he stayed in the hutch
On your sheet fill in the columns to show any
factors that would increase the thinking time the
braking time or both and mean itrsquos a bad day for
Flopsy
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 116: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/116.jpg)
OFFICER TRAFFIC
REPORTING FOR DUTY
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 117: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/117.jpg)
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy
2 What happens to this energy
3 If the police officer touches the ground where the skids of the car are what should he notice
4 What is the deceleration if the change in velocity took 25 seconds
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 118: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/118.jpg)
The ups and
downs of
BRAKING
Moving at 30ms
Stopped at 0ms
Look at the braking scenario below and answer the following questions
1 What happens to the kinetic energy DECREASES
2 What happens to this energy IT IS CONVERTED INTO HEAT ENERGY
3 If the police officer touches the ground where the skids of the car are what should he notice HOT ON THE GROUND
4 What is the deceleration if the change in velocity took 25 seconds 30 divide 25 = 12 ms2
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 119: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/119.jpg)
When the brakes of a vehicle are applied work done by the
friction force between the brakes and the wheel reduces
the kinetic energy of the vehicle and the temperature of
the brakes increases
BRAKING
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 120: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/120.jpg)
Lesson objectivesHave we hit any yet
ALL Will KNOW that the stopping distance consists of the thinking distance added to the braking distance (grade C)
MOST Will BE ABLE to name the factors that would increase the thinking or braking distance (grade B)
SOME Will UNDERSTAND what happens to energy forms during the process of braking (grade A)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 121: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/121.jpg)
LESSON 6
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 122: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/122.jpg)
Think back to the lessons on forces and write down all the forces acting on me ndash donrsquot forget to add arrows
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 123: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/123.jpg)
Gravity (or weight) Friction Air resistance Water resistance Upthrust Thrust
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 124: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/124.jpg)
Say what YOU see(2 words)
Big weight _________
Bristol ________Football
Club
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 125: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/125.jpg)
TERMINALVELOCITY
WORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 126: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/126.jpg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 127: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/127.jpg)
Listen carefully to my story
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 128: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/128.jpg)
Number 1
From the moment I jump out of the plane I feel like I am getting
faster and faster
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 129: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/129.jpg)
Number 2
Once I have dropped what seems like miles I feel like I am going at top velocity ndash
not getting faster nor slower
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 130: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/130.jpg)
Number 3
When I pull my parachute it feels like I shoot upwards ndash but I donrsquot Irsquom just slowing
down
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 131: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/131.jpg)
Number 4
This is my favourite part ndash just floating at
the same velocity towards the ground
taking in all the sights
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 132: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/132.jpg)
Number 5
Eventually I hit the floor and Irsquom just happy Irsquom ALIVE
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 133: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/133.jpg)
Say what YOU see(2 words)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 134: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/134.jpg)
SKETCHGRAPH
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 135: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/135.jpg)
Sketch graphs
A sketch graph is one where you do not plot
points but instead make a rough drawing
of what the shape of the graph will be by
looking at the results or predict what it will
look like using your knowledge
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 136: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/136.jpg)
HOMERrsquoS HELPFUL HINT
Although you donrsquot plot exact
points on a sketch graph you still must
label the axes
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 137: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/137.jpg)
TASK
Complete the task as shown by your shape
Using the story you have heard about the sky dive try and draw a sketch
velocity-time graph to show the motion of the skydiver
EXTENDLabel the lines on your graph
explaining the sizes of the forces acting on the skydiver
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 138: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/138.jpg)
How did you do
Velocity(ms)
Time(seconds)
1 mark for each
Line Explanation
AcceleratingWeight is
greater than the air
resistance
Terminal velocity
Weight is now equal to the
air resistance DeceleratingWeight is now
less than the air resistance Terminal velocity
Weight is equal to the air resistance Stopped
Both weight and air
resistance are 0
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 139: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/139.jpg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 140: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/140.jpg)
Velocity(ms)
Time(seconds)
What would the resultant forces
be at the different points
(positive negative or
zero)POSITIVE
ZERO
NEGATIVE
ZERO
ZERO
JUST CHECKING
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 141: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/141.jpg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the forces that act on objects as they fall through air (grade D)
MOST Will UNDERSTAND the term terminal velocity and be able to explain how an object gets into this state (grade C)
SOME Will BE ABLE to explain the shape of a velocity-time graph as an object falls through the air in terms of forces and velocity (grade A)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 142: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/142.jpg)
LESSON 7
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 143: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/143.jpg)
Doctorrsquos Orders
Your Subtitle Goes Here
Ellie presents herself to her doctor really worried about a printout she
has just got out of a weighing machine She knows that she hasnrsquot been keeping to her diet
recently but she cant understand why the figure she has circled is so
highCan you help the doctor figure it
out
WILLrsquoS WEIGHING MACHINE
Age 52Height 5ft4in
Mass 55kgWeight 550N
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 144: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/144.jpg)
ldquoThe weight of an object depends on gravity and because gravity is different on different planets the
weight will changeWeight is measured in Newtonsrdquo
WEIGHTWORDS
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 145: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/145.jpg)
ldquoThe mass of an object is the amount of matter it contains and is
always the same no matter the planet
Mass is measured in kilogramsrdquo
MASSWORDS
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 146: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/146.jpg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 147: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/147.jpg)
Weight = Mass X Gravity
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 148: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/148.jpg)
Weight
Mass Gravity
Measured in Nkg
Measured in kg
Measured in N
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 149: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/149.jpg)
A car has a mass of 10000 kg What is the weight of the car on Earth
(use gravitational field strength = 10Nkg)
Weight = Mass X Gravity = 10000 X 10
= 100000N
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 150: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/150.jpg)
Volunteer please
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 151: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/151.jpg)
An astronaut and his equipment have a mass of 150kg What is the weight when he is standing on the Moon(use gravitational field strength =
16Nkg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 152: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/152.jpg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 153: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/153.jpg)
Begin by standing on the Newton scales to find your weight on Earth Then use your knowledge and the information below to
complete the rest of the calculations
On the Earth gravity is 10Nkg
1 On Earth my mass is ___ kg
2 On Earth my weight is ____ N
I then fly to the moon (gravity = 16Nkg)
3 On the moon my mass is ___ kg
4 On the moon my weight is ____ N
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 154: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/154.jpg)
John puts himself on the scales and finds out that he has a mass of 65kg If he were to fly to the moon
what would the scales read (gravity on moon is 16Nkg)
A 65N
B 65kg
C 104N
D 104kg
1
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 155: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/155.jpg)
What would Johnrsquos weight be on the Earth (gravity on Earth is 10Nkg)
A 65kg
B 65N
C 650kg
D 650N
2
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 156: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/156.jpg)
What would Johnrsquos weight be on the Moon (gravity on Moon is 16Nkg)
A 65kg
B 65N
C 65N
D 104N
3
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 157: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/157.jpg)
If Johnrsquos wife knew her weight was 420N on Earth what would her mass be
A 42kg
B 42N
C 420kg
D 4200kg
4
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 158: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/158.jpg)
Which of the following statements is correct
A The mass and weight of an object stay the same wherever it is in the Universe
B The mass of an object is dependent on gravity but the weight is always the same
C The mass of an object is always the same but the weight is dependent on gravity
D The mass of an object is always equal to the weight of the object
5
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 159: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/159.jpg)
Lesson objectivesHave we hit any yet
ALL Will KNOW the differences between mass and weight and their units (grade C)
MOST Will KNOW the equation to work out an objectrsquos weight and will BE ABLE to apply to calculations (grade B)
SOME Will BE ABLE to calculate the mass and gravitational field strength using the rearranged weight equation (grade A)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 160: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/160.jpg)
LESSON 8
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 161: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/161.jpg)
Tom needs your help
He doesnrsquot understand why every time he
dives into the pool his fingers the top of his
head and his shoulders feel really warm
He has even asked for the pool to be made colder but it doesnrsquot make any difference
Can Science explain it
TOMrsquoS TEASER
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 162: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/162.jpg)
The faster an object moves through a fluid (liquid or gas) the greater the frictional force that acts on it ndash and therefore the greater the heat energy
that is given out
FRICTIONAnd
FLUIDS
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 163: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/163.jpg)
EXAMQUESTIONS
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 164: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/164.jpg)
Compare the forward force on the bike with the backward force on the bike when Victoria Pendleton was travelling at a
constant speed
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 165: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/165.jpg)
Victoria then crouched down over the handlebars to make herself more streamlined as shown belowShe continued to pedal with the same force as
beforeCompare the forward and backward forces acting
on her now
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 166: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/166.jpg)
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
The lift is not movingHow do the sizes of the
two forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 167: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/167.jpg)
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving upwards and getting
faster how do the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 168: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/168.jpg)
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the liftWhen the lift is moving
upwards at a steady speed how the forces
compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 169: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/169.jpg)
The lift in a tall building hangs from a strong cable The movement of the lift is
affected by only two forcesThese forces are the tension in the cable
and the weight of the lift
When the lift is moving upwards and gets near to the top it starts to slow down
How do the size of the forces compare
(a) The tension is greater than the weight
(b) The tension is equal to the weight
(c) The tension is less than the weight
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 170: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/170.jpg)
A man finds out that he has a mass of 65 kg on Earth Which of the
following is correct
A The manrsquos weight on Earth is 65N
B The manrsquos mass on The Moon is 65kg
C The manrsquos weight on The Moon is 65N
D The manrsquos weight on Earth is 65N
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 171: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/171.jpg)
Grandpa Joe is a very lucky man He has just won a trip to the Moon
However he is not so clever
He knows that his mass is 60kg on Earth and now he wants to know the
answers to these questions
PLEASE HELP JOE
1 How much did Grandpa Joe weigh on Earth (tip gravity = 10Nkg)
2 How much did Grandpa Joe weigh on the Moon (tip gravity = 16Nkg)
3 What was Grandpa Joersquos mass on the Moon
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-
![Page 172: Examiner Edward says: The key to success is being able to use the equations accurately and then write the correct units](https://reader031.vdocuments.us/reader031/viewer/2022012922/551ba34b550346942b8b5925/html5/thumbnails/172.jpg)
SELF-ASSESS
MASS = 60Kg
WEIGHT = 600N
MASS = 60Kg
WEIGHT = 96N
- Slide 1
- Slide 2
- Introducinghelliphellip
- Slide 4
- Using the equations To get a Grade C
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Lesson objectives Have we hit any yet
- Slide 11
- Slide 12
- Weight = Mass X Gravity
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Lesson objectives Have we hit any yet (2)
- Slide 22
- What is the mass of an elephant that has a kinetic energy of 25
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- What is the mass of an elephant that has a kinetic energy of 25 (2)
- Slide 31
- Usain is built like a unit and he just loves units And he
- Slide 33
- Slide 34
- Lesson objectives Have we hit any yet (3)
- Slide 36
- Look at the objects below and write down any force that you can
- How many did you get
- Slide 39
- Lesson objectives Have we hit any yet (4)
- Slide 41
- Slide 42
- ldquoThe sum of the forward forces acting on an object subtract the
- Work out the following resultant forces
- Lesson objectives Have we hit any yet (5)
- Scenario 1
- Scenario 2
- Scenario 3
- Slide 49
- Slide 50
- Lesson objectives Have we hit any yet (6)
- To try
- Lesson objectives Have we hit any yet (7)
- A lorry is travelling at 15ms ndash then the resultant forces belo
- Assessment
- If I was a gambler I would bet there were two different answer
- Why
- Slide 58
- Olympic CHAMPION
- Slide 60
- Slide 61
- Slide 62
- Slide 63
- Slide 64
- Volunteer please
- Slide 66
- Competition Time
- Welcome to the ACCELERATION OLYMPICS
- Slide 69
- Slide 70
- Slide 71
- Slide 72
- Slide 73
- Slide 74
- Slide 75
- Volunteer please (2)
- Acceleration = Change in velocity divide time taken
- Slide 78
- Slide 79
- Slide 80
- Slide 81
- Slide 82
- Slide 83
- NOW YOU TRY
- Slide 85
- TASK
- Lesson objectives Have we hit any yet (8)
- Slide 88
- TASK (2)
- Slide 90
- Slide 91
- Slide 92
- Slide 93
- Velocity-Time Graph
- Velocity-Time Graph (2)
- Slide 96
- TASK (3)
- Slide 98
- Slide 99
- Lesson objectives Have we hit any yet (9)
- Velocity-Time Graph (3)
- Velocity-Time Graph (4)
- Lesson objectives Have we hit any yet (10)
- TASK (4)
- Slide 105
- Slide 106
- Lesson objectives Have we hit any yet (11)
- Slide 108
- Slide 109
- Slide 110
- Slide 111
- Slide 112
- ldquoThe distance that an object travels from the point the stimulu
- Lesson objectives Have we hit any yet (12)
- Slide 115
- Slide 116
- Slide 117
- Slide 118
- When the brakes of a vehicle are applied work done by the fric
- Lesson objectives Have we hit any yet (13)
- Slide 121
- Think back to the lessons on forces and write down all the forc
- Slide 123
- Say what YOU see (2 words)
- Slide 125
- Lesson objectives Have we hit any yet (14)
- Slide 127
- Number 1
- Number 2
- Number 3
- Number 4
- Number 5
- Say what YOU see (2 words) (2)
- Slide 134
- Sketch graphs
- Slide 136
- TASK (5)
- How did you do
- Lesson objectives Have we hit any yet (15)
- Slide 140
- Lesson objectives Have we hit any yet (16)
- Slide 142
- Doctorrsquos Orders
- ldquoThe weight of an object depends on gravity and because gravity
- Slide 145
- ldquoThe mass of an object is the amount of matter it contains and
- Lesson objectives Have we hit any yet (17)
- Slide 148
- Slide 149
- Slide 150
- Volunteer please (3)
- Slide 152
- Lesson objectives Have we hit any yet (18)
- Begin by standing on the Newton scales to find your weight on E
- Slide 155
- Slide 156
- Slide 157
- Slide 158
- Slide 159
- Lesson objectives Have we hit any yet (19)
- Slide 161
- Tom needs your help He doesnrsquot understand why every time h
- The faster an object moves through a fluid (liquid or gas) the
- Slide 164
- Compare the forward force on the bike with the backward force o
- Victoria then crouched down over the handlebars to make herself
- The lift in a tall building hangs from a strong cable The mov
- The lift in a tall building hangs from a strong cable The mov (2)
- The lift in a tall building hangs from a strong cable The mov (3)
- The lift in a tall building hangs from a strong cable The mov (4)
- A man finds out that he has a mass of 65 kg on Earth Which of
- Slide 172
- Slide 173
-