chapter 4: newton’s laws - ms. johnston's...
TRANSCRIPT
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Chapter 4: Newton’s Laws
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• a force diagram is a picture that shows the
strength and direction of forces acting on an
object
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• the length of the arrow shows the size of the force (a longer
arrow = a larger force)
• the direction of the arrow shows the direction of the force
Weight
Reaction
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• forces always come in pairs
Weight
Reaction
Friction
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•When the forces are balanced they are acting in
opposite direction with equal strength
•As a result the object will not move
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•When the forces are unbalanced they are acting in
opposite direction with different strengths
•As a result the object will move
Unbalanced Forces
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Gravity
Air Resistance
Gravity
Air Resistance
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Newton’s Laws
• Three laws that summarize the relationship between acceleration and force.
Newton’s First Law: Inertia
• A body with balanced forces acting on it remains at rest or moves with constant velocity in a straight line.
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Newton’s First Law: Inertia
• A body with balanced forces acting on it remains at rest or moves with constant velocity in a straight line.
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Newton’s Second Law: Acceleration
• A body with unbalanced forces acting on it will accelerate at a rate directly proportional to the net force on it and inversely proportional to its mass.
or
F = net (resultant) force (N)
m = mass of object (kg)
a = acceleration (N/kg or m/s2)
a = F m
F = m a
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Newton’s Second Law: Acceleration
• force and acceleration (both vectors) are in the same direction.
• net force (resultant of all forces acting on a body) causes acceleration
• force that causes a mass of one kilogram to accelerate at a rate of one meter per second is 1 Newton (1 N)
a = F m
F = m a
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Ex#1. What is the net force required to accelerate a 1600 kg race car at 3.15 m/s2?
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Ex#2. A bus accelerates from rest to 30.0 m/sin 15s. If the net force acting on the bus is 25 000N, what is the mass of the bus?
Quick Check pg. 110
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FN
Fg
FA FF
All forces equal, no movement.(or constant velocity)
Net Forces Cause Acceleration
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FN
Fg
FA FF
FA must exceed static friction for acceleration to occur (unbalanced forces)
a
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FN
Fg
FA FF
If FA is reduced to equal sliding friction, opposite forces will balance once again, and the object will move at a constant velocity.
v
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Ex.1 A 10 kg box is dragged along the floor with a force of 100 N. If the force of friction is 20 N, what is the acceleration of the box?
Ff = 20N Fa = 100N10 kg
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2. What tension force is needed to accelerate a 20.0 kg box along a wooden floor (μ = 0.40) at a rate of 2.0 m/s2?
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3. The space shuttle has a mass of 2.0 x 106 kg. At lift off the engines generate an upward force of 3.0 x 107
N.
a) What is the weight of the shuttle?
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3. The space shuttle has a mass of 2.0 x 106 kg. At lift off the engines generate an upward force of 3.0 x 107
N.
b) What is the acceleration when the shuttle was launched?
Fu=3.0x107N
Fg=2.0x107N
2.0x106kg
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Ex#4: A parachutist has a mass of 65 kg. If the drag on the parachute is 590 N, what is the acceleration of the parachutist? (not in old notes)
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Terminal Velocity• When a body falls through a fluid, it increases
in speed. However, a maximum velocity is eventually reached.
• Terminal velocity occurs when the force of gravity balances the resistive force of the fluid.
Depends on:
a) size and mass of the falling object
b) viscosity of the fluid (resistive force)
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Ex. #1. A skydiver in freefall has a mass of 75.0kg. What drag force would air resistance exert when the skydiver is at terminal velocity?
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Ex. #2. A steel ball is falling at a constant speed through glycerin. The drag force is 30N. What is the mass of the ball?
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Newton’s Third Law: Action and Reaction
• Whenever one object exerts a force on a second object, the second exerts an equal and opposite force on the first.
i.e., action force – hammer exerts a force on a nail
reaction force – nail exerts a force on the hammer.
• Action and reaction forces are acting on different bodies. Net force on a bodydetermines acceleration (2nd Law)
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Action and Reaction of Different Masses
• Forces are equal in strength, but the acceleration is dependent on the masses.
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Ex. Two boys on ice push each other. Andrew weighs 55kg while Jamie weighs 85kg. They push each other with a net force of 150N. What is each boys’ acceleration?
Andrew:
m = 55 kg
F = 150 N
Jamie:
m = 85 kg
F = 150 N
Does it matter who pushes who?
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FORCE VECTOR COMPONENTS:Ex#1: A person pulling a sled exerts a force of 58N on a rope held at an angle of 30o with the horizontal. What is the vertical component? What is the horizontal component?
FR
FH
FV30o
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Momentum
• the quantity of motion.
• the product of mass and velocity.
p=mv
p= momentum, kg.m/s
m = mass, kg
v = velocity, m/s
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Ex#1a). A baseball with a mass of 0.15kg is moving at 27 m/s. What is the momentum of the baseball?
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b) If a bowling ball has a mass of 5.5kg, what velocity would you give it in order to have the same momentum as the baseball (4.1 kg-m/s)?
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Momentum and Impulse
Momentum and Newton’s 1st Law
• If no net force acts on a body, its velocity is constant.
• If an objects mass and velocity do not change then its momentum is constant.
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Momentum and Newton’s 2nd Law
• Newton’s 2nd law describes how velocity changes by a force acting on it.
F=ma
If a = Δv/Δt
then F = m(Δv)Δt
or FΔt = mΔv
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Impulse (FΔt)
• the product of net force and time during which it acts.
• measured in N.s
Impulse-Momentum Theorem
• impulse given to an object is equal to the change in momentum FΔt = Δp
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Ex#1. What is the impulse exerted on a baseball if a bat exerts a force of 550N for 0.007s on the ball?
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Ex#2. What force is required to stop a 1200 kg car in 12 s if the car is traveling 60 m/s?
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Ex#3. A 0.144 kg baseball is pitched horizontally at 38.0 m/s? After it is hit by a bat, it moves horizontally at 38 m/s.
a) What impulse did the baseball deliver to the ball?
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Ex#3. A 0.144 kg baseball is pitched horizontally at 38.0 m/s? After it is hit by a bat, it moves horizontally at 38 m/s.
b) If the bat and ball were in contact for 0.80 ms, what was the average force exerted on the ball?
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Ex#3. A 0.144 kg baseball is pitched horizontally at 38.0 m/s? After it is hit by a bat, it moves horizontally at 38 m/s.
c) What is the average acceleration of the ball during its contact with the bat?
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Conservation of Momentum
The total momentum before any collision is the same as the total momentum after the collision. The momentum of the system is not changed, it is conserved.
Observe 2 billiard balls that collide:
Before collision: After collision:
pA pB pA’ pB’
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Before collision:
B exerts a positive force (+F) on A
Balls are in contact for Δt
Impulse given to A
= +FΔt = ΔpA
Newton’s 3rd Law States that objects exert equal and opposite forces on each other when they collide.,
Ball A exerts -F on Ball B
Impulse given to B
-FΔt = ΔpB
+FΔt = -ΔpB
After collision:
pApB pA’pB’
Conservation of Momentum
Observe 2 billiard balls that collide:
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+FΔt = ΔpA +FΔt = -ΔpB
ΔpA = -ΔpB
pA’ – pA = -(pB’ – pB)
pA’ – pA = -pB’ + pB
pA’ + pB’ = pA + pB
Law of Conservation of Momentum:
The total momentum before any collision is the same as the total momentum after the collision. The momentum of the system is not changed, it is conserved.
pA + pB = p’A + p’B
ΔpA + ΔpB = 0
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Ex#1. A loaded railway car rolls at 2.0 m/s into an empty 3000 kg railway car. The empty car was moving at 3.0 m/s towards the loaded car.
a) Calculate the momentum of the loaded car.
6000 kg 6000 kg3000 kg 3000 kg
vL = 2.0 m/s vE = -3.0 m/s vL+E = ? m/s
CAR L CAR E CAR L + E
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Ex#1. A loaded railway car rolls at 2.0 m/s into an empty 3000 kg railway car. The empty car was moving at 3.0 m/s towards the loaded car.
b) Calculate the momentum of the empty car.
6000 kg 6000 kg3000 kg 3000 kg
vL = 2.0 m/s vE = -3.0 m/s vL+E = ? m/s
CAR L CAR E CAR L + E
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Ex#1. A loaded railway car rolls at 2.0 m/s into an empty 3000 kg railway car. The empty car was moving at 3.0 m/s towards the loaded car.
c) What is the total momentum of the system if both cars stick together when they collide.
6000 kg 6000 kg3000 kg 3000 kg
vL = 2.0 m/s vE = -3.0 m/s vL+E = ? m/s
CAR L CAR E CAR L + E
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Ex#1. A loaded railway car rolls at 2.0 m/s into an empty 3000 kg railway car. The empty car was moving at 3.0 m/s towards the loaded car.
d) What is the velocity of the system after collision?
6000 kg 6000 kg3000 kg 3000 kg
vL = 2.0 m/s vE = -3.0 m/s vL+E = ? m/s
CAR L CAR E CAR L + E
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Ex#2. Sedin and Crosby are standing on the ice rink when they argue about a call. Crosby pushes Sedinand acquires a velocity of 3.0 m/s. If Sedin has a mass of 92 kg and Crosby has a mass of 87 kg, what is Sedin’s velocity?
S C92kg 87kg
v = 0 m/sp = 0 kg-m/s
S C92kg 87kg
vC’ = +3.0 m/svS’ = ? m/s
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Ex#3. James Bond narrowly escapes his foes by jumping down onto a 675 kg horse and buggy that was moving at 2.50 m/s. With what velocity do James and the horse-buggy system move, if James has a mass of 90.5 kg?
mJ =90.5
kg
mB =675 kg
vB = 2.50 m/s vB+J = ? m/s
mB =675 kg
mJ =90.5
kg
vJ = 0 m/s