2023 Force and Momentum Exam Makeup

Last updated almost 2 years ago

20 questions

Instructions

1

Library

2023 Force and Momentum Exam Makeup

Last updated almost 2 years ago

20 questions

Instructions

Equations

1

Driving Home Newton's Laws of Motion 

Automobiles, baseballs, skateboards and bicycles --the world is full of things that are in motion. Centuries ago the British physicist Sir Isaac Newton stated three laws that describe the ways in which things move. These are Newton's three laws of motion: 

The first law:  Unless acted upon by an outside force, a body at rest tends to stay at rest, and a body in motion tends to stay in motion. 

The second law: Acceleration is equal to the net force acting on a body divided by its mass. 

The third law: For every action force there is an equal and opposite reaction force. 

A driver starts her car and steps on the gas pedal. The car gradually accelerates to 50 km/hr. A few minutes later, the driver suddenly slams on the brakes to avoid hitting a box in the road. As the car comes to a stop, the driver's body appears to lurch forward in the seat until it is restrained by the seatbelt.

1

Equations

1

A student attempts to measure the mass of a brick by measuring the force required to accelerate it at 1 m/s2 on a level surface. The force required is 2 N, and the student concludes that the brick has a mass of 2 kg. A balance shows that the mass of the brick is really 1.5 kg. The experimental error is most likely due to

gravity

inertia

friction

acceleration

1

Driving Home Newton's Laws of Motion 

Automobiles, baseballs, skateboards and bicycles --the world is full of things that are in motion. Centuries ago the British physicist Sir Isaac Newton stated three laws that describe the ways in which things move. These are Newton's three laws of motion: 

The first law:  Unless acted upon by an outside force, a body at rest tends to stay at rest, and a body in motion tends to stay in motion. 

The second law: Acceleration is equal to the net force acting on a body divided by its mass. 

The third law: For every action force there is an equal and opposite reaction force. 

A driver starts her car and steps on the gas pedal. The car gradually accelerates to 50 km/hr. A few minutes later, the driver suddenly slams on the brakes to avoid hitting a box in the road. As the car comes to a stop, the driver's body appears to lurch forward in the seat until it is restrained by the seatbelt.

1

A student is driving her car when an insect strikes her windshield. Which of the following statements best describes the forces in this situation?

The insect strikes the windshield with a force, and the windshield exerts no force on the insect.

The insect strikes the windshield with a small force, and the windshield strikes the insect with a large force.

The insect strikes the windshield with the same force as the windshield strikes the insect.

The insect exerts no force on the windshield, and the windshield strikes the insect with a large force.

A ball is dropped from the top of a tall building. As the ball falls, the upward force of air resistance becomes equal to the downward pull of gravity. When these two forces become equal in magnitude, the ball will

slow to a stop.

fall at a constant speed.

flatten due to the forces.

continue to speed up.

1

When a 12-newton horizontal force is applied to a box on a horizontal tabletop, the box remains at rest. The force of friction acting on the box is

between 0 N and 12 N

greater than 12 N

0 N

12 N

A skydiver with a mass of about 80 kg experiences air resistance equal to half his weight before he deploys his parachute. Which free body diagram best shows this situtation?

1

A 13-N east horizontal force acts in the same direction as a 6.4-kg block as it slides 2.5 m/s on a frictionless, horizontal surface for 2.1 s. What is the speed of the block after force is applied?

7.2 m/s

1.7 m/s

4.3 m/s

6.7 m/s

A student on roller skates throws a basketball forward. How does the momentum of the student on skates compare to the momentum of the basketball?

The velocity of the student is equal in magnitude but opposite in direction to the velocity of the basketball.

The velocity of the student is equal in magnitude and in the same direction as the velocity of the basketball.

The product of the mass times the velocity of the student is equal in magnitude and in the same direction as the product of the mass times the velocity of the basketball.

The product of the mass times the velocity of the student is equal in magnitude but opposite in direction to the product of the mass times the velocity of the basketball.

When these two freight cars of different mass collide and couple, what will be their resultant velocity?

4 m/s

8 m/s

2 m/s

1 m/s

A temporary force acting on a 2-kg object traveling at a velocity of 5 m/s causes the object to slow to a velocity of 2 m/s . What was the decrease in momentum of the object?

7 kg m/s

6 kg m/s

5 kg m/s

4 kg m/s

An air bag is used to safely decrease the momentum of a driver in a car accident. The air bag reduces the magnitude of the force acting on the driver by

decreasing the distance over which the force acts on the driver

increasing the rate of acceleration of the driver

increasing the length of time the force acts on the driver

decreasing the mass of the driver

Which situation will produce the greatest change of momentum for a 1.0-kilogram cart?

accelerating it from rest to 3.0 m/s

applying a net force of 10.0 N for 0.5 s

accelerating it from 2.0 m/s to 4.0 m/s

applying a net force of 5.0 N for 2.0 s

An object has a mass, m, and a velocity, v. Which change would make its momementum become one-fourth as much?

Its mass becomes m/2 and its velocity becomes 2v

Its mass becomes m/3 and its velocity remains v.

Its mass remains m and its velocity becomes v/2

Its mass becomes m/2 and its velocity becomes v/2

A 0.025 kg bullet is fired from a rifle by an un balanced force of 200 N. If the force acts on the bullet for 0.1 sec, what is the maximum speed attained by the bullet?

400 m/s

800 m/s

5 m/s

20 m/s

A constant braking force of 10 N applied for 5 seconds is used to stop a 2.5 kg cart traveling as 20 m/s. What is the magnitude of the impulse applied to the cart?

10 Ns

100 Ns

30 Ns

50 Ns

The graph shows how the position of an object changes over time. What is the velocity of the object during the time interval from 4 seconds to 10 seconds?

18 m/s

8 m/s

2 m/s

3 m/s

A student attempts to measure the mass of a brick by measuring the force required to accelerate it at 1 m/s2 on a level surface. The force required is 2 N, and the student concludes that the brick has a mass of 2 kg. A balance shows that the mass of the brick is really 1.5 kg. The experimental error is most likely due to

gravity

inertia

friction

acceleration

This diagram shows a ramp with a toy car at the bottom. A string is attached to the front of the car and the string goes over a pulley at the top of the ramp. A weight is attached to the other end of the string, and the car is pulled up the ramp. What is the relationship between the force of gravity on the weight and the force of tension on the weight?

There is not enough information to determine

Fg < Ft

Fg > Ft

Fg = Ft

What law best explains why the driver's body appears to lurch forward when the brakes are suddenly applied?

Newton's first law

Newton's second law

Newton's third law

The law of gravity

A student is driving her car when an insect strikes her windshield. Which of the following statements best describes the forces in this situation?

The insect strikes the windshield with a force, and the windshield exerts no force on the insect.

The insect strikes the windshield with a small force, and the windshield strikes the insect with a large force.

The insect strikes the windshield with the same force as the windshield strikes the insect.

The insect exerts no force on the windshield, and the windshield strikes the insect with a large force.

A ball is dropped from the top of a tall building. As the ball falls, the upward force of air resistance becomes equal to the downward pull of gravity. When these two forces become equal in magnitude, the ball will

slow to a stop.

fall at a constant speed.

flatten due to the forces.

continue to speed up.

A small stone is shot straight up in the air. The figure shows a plot of the stone's position vs. time (air resistance is ignored). When is the stone moving the fastest?

3-4 and 7-8 seconds

3-4 and 4-5 seconds

0-1 and 7-8 seconds

0-1 and 4-5 seconds

A student in a lab experiment jumps upward off a common bathroom scale as the lab partner records the scale reading. What does the lab partner observe during the instant the student pushes off?

The scale reading will remain unchanged during the entire time the student is in contact with the scale.

The scale reading will increase during the entire time the student is in contact with the scale.

The scale reading will increase momentarily then will decrease as the student is moving upward from the scale.

The scale reading will decrease momentarily then will increase as the student is moving upward from the scale.

When a 12-newton horizontal force is applied to a box on a horizontal tabletop, the box remains at rest. The force of friction acting on the box is

between 0 N and 12 N

greater than 12 N

0 N

12 N

A skydiver with a mass of about 80 kg experiences air resistance equal to half his weight before he deploys his parachute.  Which free body diagram best shows this situtation?

The illustration shows a car slowing down. The car was initially traveling at 15 m/s. The car slows with a negative acceleration of 4.5 m/s2 . How long does it take the car to slow to a final velocity of 4.0 m/s?

0.89 s

60 s

2.4 s

11 s

A 13-N east horizontal force acts in the same direction as a 6.4-kg block as it slides 2.5 m/s on a frictionless, horizontal surface for 2.1 s. What is the speed of the block after force is applied?

7.2 m/s

1.7 m/s

4.3 m/s

6.7 m/s

A student on roller skates throws a basketball forward. How does the momentum of the student on skates compare to the momentum of the basketball?

The velocity of the student is equal in magnitude but opposite in direction to the velocity of the basketball.

The velocity of the student is equal in magnitude and in the same direction as the velocity of the basketball.

The product of the mass times the velocity of the student is equal in magnitude and in the same direction as the product of the mass times the velocity of the basketball.

The product of the mass times the velocity of the student is equal in magnitude but opposite in direction to the product of the mass times the velocity of the basketball.

When these two freight cars of different mass collide and couple, what will be their resultant velocity?

4 m/s

8 m/s

2 m/s

1 m/s

A temporary force acting on a 2-kg object traveling at a velocity of 5 m/s causes the object to slow to a velocity of 2 m/s . What was the decrease in momentum of the object?

7 kg m/s

6 kg m/s

5 kg m/s

4 kg m/s

An air bag is used to safely decrease the momentum of a driver in a car accident. The air bag reduces the magnitude of the force acting on the driver by

decreasing the distance over which the force acts on the driver

increasing the rate of acceleration of the driver

increasing the length of time the force acts on the driver

decreasing the mass of the driver

Which situation will produce the greatest change of momentum for a 1.0-kilogram cart?

accelerating it from rest to 3.0 m/s

applying a net force of 10.0 N for 0.5 s

accelerating it from 2.0 m/s to 4.0 m/s

applying a net force of 5.0 N for 2.0 s

An object has a mass, m, and a velocity, v. Which change would make its momementum become one-fourth as much?

Its mass becomes m/2 and its velocity becomes 2v

Its mass becomes m/3 and its velocity remains v.

Its mass remains m and its velocity becomes v/2

Its mass becomes m/2 and its velocity becomes v/2

A 0.025 kg bullet is fired from a rifle by an un balanced force of 200 N.  If the force acts on the bullet for 0.1 sec, what is the maximum speed attained by the bullet?  

400 m/s

800 m/s

5 m/s

20 m/s

A constant braking force of 10 N applied for 5 seconds is used to stop a 2.5 kg cart traveling as 20 m/s.  What is the magnitude of the impulse applied to the cart?

10 Ns

100 Ns

30 Ns

50 Ns

The graph shows how the position of an object changes over time. What is the velocity of the object during the time interval from 4 seconds to 10 seconds?

18 m/s

8 m/s

2 m/s

3 m/s

This diagram shows a ramp with a toy car at the bottom. A string is attached to the front of the car and the string goes over a pulley at the top of the ramp. A weight is attached to the other end of the string, and the car is pulled up the ramp.  What is the relationship between the force of gravity on the weight and the force of tension on the weight?

There is not enough information to determine

Fg < Ft

Fg > Ft

Fg = Ft

What law best explains why the driver's body appears to lurch forward when the brakes are suddenly applied?

Newton's first law

Newton's second law

Newton's third law

The law of gravity

A small stone is shot straight up in the air. The figure shows a plot of the stone's position vs. time (air resistance is ignored). When is the stone moving the fastest?

3-4 and 7-8 seconds

3-4 and 4-5 seconds

0-1 and 7-8 seconds

0-1 and 4-5 seconds

A student in a lab experiment jumps upward off a common bathroom scale as the lab partner records the scale reading.  What does the lab partner observe during the instant the student pushes off?

The scale reading will remain unchanged during the entire time the student is in contact with the scale.

The scale reading will increase during the entire time the student is in contact with the scale.

The scale reading will increase momentarily then will decrease as the student is moving upward from the scale.

The scale reading will decrease momentarily then will increase as the student is moving upward from the scale.

The illustration shows a car slowing down. The car was initially traveling at 15 m/s. The car slows with a negative acceleration of 4.5 m/s2 . How long does it take the car to slow to a final velocity of 4.0 m/s?

0.89 s

60 s

2.4 s

11 s

2023 Force and Momentum Exam Makeup

2023 Force and Momentum Exam Makeup

Equations

Driving Home Newton's Laws of Motion

Equations

Driving Home Newton's Laws of Motion

A student is driving her car when an insect strikes her windshield. Which of the following statements best describes the forces in this situation?

A ball is dropped from the top of a tall building. As the ball falls, the upward force of air resistance becomes equal to the downward pull of gravity. When these two forces become equal in magnitude, the ball will

When a 12-newton horizontal force is applied to a box on a horizontal tabletop, the box remains at rest. The force of friction acting on the box is

A skydiver with a mass of about 80 kg experiences air resistance equal to half his weight before he deploys his parachute. Which free body diagram best shows this situtation?

A 13-N east horizontal force acts in the same direction as a 6.4-kg block as it slides 2.5 m/s on a frictionless, horizontal surface for 2.1 s. What is the speed of the block after force is applied?

A student on roller skates throws a basketball forward. How does the momentum of the student on skates compare to the momentum of the basketball?

When these two freight cars of different mass collide and couple, what will be their resultant velocity?

A temporary force acting on a 2-kg object traveling at a velocity of 5 m/s causes the object to slow to a velocity of 2 m/s . What was the decrease in momentum of the object?

An air bag is used to safely decrease the momentum of a driver in a car accident. The air bag reduces the magnitude of the force acting on the driver by

Which situation will produce the greatest change of momentum for a 1.0-kilogram cart?

An object has a mass, m, and a velocity, v. Which change would make its momementum become one-fourth as much?

A 0.025 kg bullet is fired from a rifle by an un balanced force of 200 N. If the force acts on the bullet for 0.1 sec, what is the maximum speed attained by the bullet?

A constant braking force of 10 N applied for 5 seconds is used to stop a 2.5 kg cart traveling as 20 m/s. What is the magnitude of the impulse applied to the cart?

The graph shows how the position of an object changes over time. What is the velocity of the object during the time interval from 4 seconds to 10 seconds?

What law best explains why the driver's body appears to lurch forward when the brakes are suddenly applied?

A small stone is shot straight up in the air. The figure shows a plot of the stone's position vs. time (air resistance is ignored). When is the stone moving the fastest?

A student in a lab experiment jumps upward off a common bathroom scale as the lab partner records the scale reading. What does the lab partner observe during the instant the student pushes off?

The illustration shows a car slowing down. The car was initially traveling at 15 m/s. The car slows with a negative acceleration of 4.5 m/s2 . How long does it take the car to slow to a fi nal velocity of 4.0 m/s?

The illustration shows a car slowing down. The car was initially traveling at 15 m/s. The car slows with a negative acceleration of 4.5 m/s2 . How long does it take the car to slow to a final velocity of 4.0 m/s?