speed is the rate that an object moves. (how fast something moves)
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Page 11. S8P3a. Motion. 8/28/12. What are the similarities and differences between speed and velocity?. Speed is the rate that an object moves. (How fast something moves) Speed is measured in meters per second (m/s), kilometers per hour (km/hr) and miles per hour (mph) - PowerPoint PPT PresentationTRANSCRIPT
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Speed is the rate that an object moves. (How fast something moves)
Speed is measured in meters per second (m/s), kilometers per hour (km/hr) and miles per hour (mph)
Speed is useful for knowing how fast vehicles move, how fast people run, etc
Speed is calculated by dividing the distance traveled by the time it takes to travel the distance.
Speed = distance / time
S8P3a. Motion 8/28/12What are the similarities and differences between speed and velocity?
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Velocity is the rate that an object moves in a particular direction.
Velocity is measured in meters per second (m/s), Kilometers per hour (km/hr) and miles per hour (mph) with a direction. For example:40 m/s west
Velocity is useful for airplanes, helicopters and boats.
Velocity is calculated by dividing the distance traveled by the time it takes to travel the distance.
Velocity = distance / time
SPEED AND VELOCITY ARE NOT THE SAME
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On page 12 of your INB, make two columns and categorize the following descriptions as speed or velocity:
Speed Velocity
car moving at 35mph bird flying at 40mph north jogger running at 10m/s jogger running at 10m/s south a vehicle racing at 125mph
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Acceleration is the rate at which an object’s velocity changes.
There are 3 ways that acceleration can occur:1. speeding up (acceleration or positive
acceleration)2. slowing down (deceleration or negative
acceleration)3. Changing direction
Acceleration is expressed in units like meters per second squared (m/s2)
The formula for calculating acceleration is:Average acceleration= final velocity-initial
velocity time
S8P3a. Motion 9/5/12What is the relationship between velocity and acceleration?
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Summary
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On the top half of pg.14 of your Science NoteBookIdentify which is an example of acceleration and which is not:
A train traveling 65 miles per hour northA boat sailing west at 5 knots
A person jogging at 3 meters/second along a curved pathA car stopped at a stop lightA car stopping at a stop light
A truck speeding up from 55mph to 75mphA person jogging at a constant speed along a straight path
Acceleration Not Acceleration
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On the bottom half of pg.14 of your Science NoteBook
Complete the practice acceleration problems provided and paste into bottom half of page 14 leaving room for a summary.
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On the top of pg.16 of your Science NoteBookWrite the following standard neatly.
S8P3b. Students will demonstrate the effect of balanced and unbalanced forces on an object in terms of gravity, inertia and friction
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All motion is due to forces acting on objects. A force is a push or pull. Force is measured in a unit called Newtons (N).
The net force is a total combination (sum) of all forces acting on an object.
A balanced force is one in which the net forces equal zero. There is no motion.
An unbalanced force has a net force greater than zero. The object acted on shows movement in one direction. Only an unbalanced force can change the motion of an object.
S8P3b. Forces 9/7/12How are forces related to the motion of objects?
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On the bottom of pg.16 of your Science NoteBookUnderneath the standard
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An unbalanced force acting on an object at rest will cause it to __________________.
An unbalanced force that acts on an object already in motion can change the speed OR direction of an object.
Unbalanced forces can act in the same direction or in opposite directions. If forces are in the same direction, you add them. If forces are acting in the opposite direction, you subtract them.
S8P3b. Forces 9/10/12How are forces related to the motion of objects?
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Summary
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On pg.18 of your Science NoteBook
During the game of tug-of-warWhat happens when the two teams pull with equal force?
What type of forces are these called?How would you represent this with force arrows?
What happens when one team pulls with a greater force?What type of forces are these called?
How would you represent this with force arrows and an illustration?
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There are many different types of forces in nature that act on objects. They include: gravity, friction and inertia.
Gravity is an attractive force that works to pull objects together.
The law of universal gravitation states that a force of gravity acts between all objects in the universe.
There are two factors that affect the force of gravity between objects: 1. the objects’ masses and 2. the distance between them. (mass is the amount of matter in an object).
S8P3b. Forces 9/17/12How are forces in nature related to the motion of objects?
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The larger the mass, the more the gravitational attraction.
The shorter the distance between the objects, the more the gravitational attraction.
Inertia is the tendency of an object to resist a change in motion.
Mass affects inertia. An object with a large mass has more inertia than an object with a small mass.
S8P3b. Forces 9/17/12How are forces in nature related to the motion of objects?
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Summary
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Draw/write the following 3 questions and determine which has a greater gravitational “pull” and WHY.
1. 2.
3.
On page 20
35kg25kg
25kg 25kg
25kg 5kg
25kg25kg
Set A (red balls)
Set B (green balls)
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Moon
Gravit
yActual Orbit
Inertia
Earth
Gravity and inertia work together to keep the Moon orbiting Earth. First, the Moon’s inertia pushes it to travel continuously in a straight line. At the same time, Earth’s gravity is pulling the Moon toward Earth. These combined forces cause the Moon to move in a curved path (orbit) around Earth. Without gravity, the Moon would fly off into space. The Moon is able to continuously orbit Earth because the Moon’s inertia and the Earth’s gravity are balanced.
On page 22
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Question 1
• What happens to the motion of an object when the forces are balanced?– A. The motion changes.– B. The motion does not change.– C. The motion speeds up.– D. The motion slows down.
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Question 2
• What happens to an object if the forces acting upon it are unbalanced? – A. Its motion will not change. – B. The motion will come to a stop. – C. The net force will be zero. – D. Its motion will change.
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Question 3
• What happens to an object moving in the same direction as the net force? – A. It will speed up. – B. Its motion will not change. – C. It will stop moving. – D. It will slow down.
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Question 4
• Which pair of objects will have the greatest gravitational attraction to each other? – A. two cinder blocks 6 centimeters apart– B. two marbles 12 centimeters apart– C. a cinder block and marble 6 centimeters apart– D. a cinder block and marble 12 centimeters apart
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S8P3b. Laws of Motion 9/19/12Since gravity works to pull objects toward each other, what keeps the planets from crashing into the Sun?
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Summary
Newton’s first law of motion states that an objects at rest will stay at rest, and an object in motion will continue in motion in a straight line unless an unbalanced force acts on the object.
This law is sometimes called the Law of Inertia.
This means if the net force acting on an object is zero, the object remains at rest, or if the object is already moving, continues to move in a straight line with constant speed.
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S8P3b. 9/19/12If Newton’s first law of motion is accurate, why do moving objects sometimes come to a stop?
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The force that brings nearly everything to a stop is called friction.
Friction is the force that opposes the motion of an object. This contact force acts whenever an object in motion rubs against a surface. Friction opposes motion when two surfaces touch. The contact reduces the speed of the moving object and releases heat.
There are 3 types of friction: sliding friction, rolling friction and static friction
Laws of Motion
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S8P3b. 9/20/12If Newton’s first law of motion is accurate, why do moving objects sometimes come to a stop?
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Summary
Sliding friction is friction that slows down an object that slides. Example: brake pads on a bicycle that rub against the wheel
Static friction is friction that acts on an object at rest. Example: trying to move a refrigerator
Rolling friction is friction that acts when an object rolls across a surface. Example: rolling a cart around
Laws of Motion
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Draw an illustration of friction in action. Your illustration must be neat and colored. You must identify the two surfaces that are interacting and what is occurring in order for it to be friction. You must also identify the type of friction.
On page 26
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Identify an example of each type of friction (not those provided in class). Illustrate, color and label the friction interaction of each using the table format below.
On page 28
Type of Friction Example Illustration with Labels
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S8P3b. 9/25/12What is the relationship between force, mass and acceleration?
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Summary
Newton’s laws
Newton’s second law of motion states that the acceleration of an object depends on the mass of the object and the amount of force applied.
This law can be expressed mathematically with:
Force = mass x acceleration(newton) = (kilogram) x (meters/second2)
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Write the question and answer:
Name two ways to increase the acceleration of an object.
1.2.
What force is necessary to accelerate a 1,250kg car at a rate of 40m/s2?
On page 30
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S8P3b. 9/25/12When a person pushes on a wall, the wall pushes back. How does this relate to Newton’s 3rd law?
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Summary
Newton’s third law of motion states that for every action there is an opposite and equal reaction. Forces act in equal and opposite pairs.
Example: pushing on a wall, a rocket launching, diving off the side of a pool.
Laws of Motion
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S8P3c. 9/27/12What is a simple machine and how do they make work easier?
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Work is the application of a force to an object to move a certain distance in the direction of the force.
Work requires two things:•a force applied to an object•the object must move in the direction of the force.
Example: pushing a lawnmower
The equation for work is: work = force x distance
The unit for work is the Joule (J).
Simple Machines
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S8P3c. 9/27/12What is a simple machine and how do they make work easier?
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A simple machine is a device that makes work easier by changing the size of a force OR changing the direction of a force.
The six simple machines are:PulleyInclined planeWedgeWheel and AxleScrewLever
Simple Machines
Summary
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An inclined plane is a straight, slanted surface. They make work easier because it is easier to push an object up a ramp than to lift the same object straight up to the same height. Ex. a ramp
On page 34
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A wedge is an inclined plane that is wider or thicker at one end than at the other. A wedge makes work easier because when moved, a wedge is used to cut, split, or pry apart objects. Ex. knife blade or axe.
On page 34
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A screw is an inclined plane that is wrapped around a cylinder. When a screw is turned, a small force is applied over the long distance of the screw’s threads.
On page 34
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A lever is a simple machine that consists of a bar that pivots at a fixed point called a fulcrum. The force applied to a lever is called the effort. The object being moved is called a load. There are three classes of levers: 1st class, 2nd class and 3rd class.
On page 36
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A wheel and axle is a simple machine that consists of a shaft called the axle, inside the middle of a wheel. Ex. bicycle wheel
Any force that is applied to the wheel gets transferred to the axle and vice versa. When force is applied to the wheel, the difference in size between the wheel and axle causes the force to increase as it is transferred to the axle.
On page 38
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A pulley is a rope or chain wrapped around a wheel. A load is attached to one end of the rope. A force is applied to the other end of the rope.
There are 2 kinds of pulleys: fixed and movable.
A fixed pulley is one that does not move. They are often used to lift something. A fixed pulley changes the direction of force, but does not reduce the amount of force needed to lift the load.
On pages 38-39
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A movable pulley is a pulley that moves. One end of the rope is tied to a stationary object and the other is free for you to pull on. The load is attached directly to the pulley. The pulley moves along the rope as the free end is pulled. They reduce the amount of force needed to move an object, but you must pull the rope farther.
On pages 38-39
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A block and tackle is a system (combination) of pulleys.
On pages 38-39
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Mechanical advantage = output force (Newtons) input force (Newtons)
MA = F out F in
Efficiency = output work (joules) X 100% input work (joules)
Eff = W out X 100% W in
On pages 38-39