IGCSEPhysicsEdexcelPhysics (Modular)Unit 1Exam Questions1. Forces & MotionMomentum

Momentum (Edexcel IGCSE Physics (Modular): Unit 1)

Exam Questions

2 hours15 questions
Easy
Medium
Hard
1a1 mark

Which row shows the correct definition for momentum and its unit?

 

 

definition

unit

A.

v space equals space m over p

N s

B.

v space equals space p over m

kg m/s

C.

p space equals space m over v

N/kg

D.

p space equals space v over m

kg m/s2

    Choose your answer

    1b1 mark

    Which of the following correctly shows the relationship between force, change in momentum and time?

    • increment p space equals space fraction numerator open parentheses m v space minus space m u close parentheses over denominator increment t end fraction

    • F increment t space equals space increment p

    • F space equals space open parentheses m v space minus space m u close parentheses increment t

    • p space equals space fraction numerator increment F over denominator increment t end fraction

    Choose your answer

    1c2 marks

    Circle the correct words in the following sentences: 

    Momentum is a scalar / vector quantity because it has magnitude only / magnitude and direction

     In a closed system, the total momentum before a collision is greater than / less than / equal to the total momentum after the event

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    2a2 marks

    Some quantities are vectors, others are scalars.

    Complete the table by ticking the boxes to show which quantities are vectors and which are scalars. 

    One has been done for you.

     Quantity

    Vector

    Scalar

     distance

     

     

     force

     

     

     momentum

     

     speed

     

     

     velocity

     

     

    How did you do?

    2b3 marks

    A truck travels at 20 m/s. 

    The mass of the truck is 15 000 kg.

    (i) State the equation linking momentum, mass and velocity.

    (1)

    (ii) Calculate the momentum of the truck.

    (2)

    momentum = .......................... kg m/s

    How did you do?

    2c3 marks

    The diagram shows the force of the road on one of the tyres of the truck.

    1-3-q2c-e-newtons-third-law-truck-sq-igcse

    The magnitude of this force is 53 000 N.

    (i) State Newton's Third Law.

    (1)

    (ii) Draw an arrow on the diagram to show the other force in this Newton's Third Law force pair, and state the value of this force.

    (3)

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    3a1 mark

    Four students draw a Newton's Third Law force pair for a book on a table. 

    Which student's Newton's Third Law force pair is correct?

    newton-3rd-law-book

      Choose your answer

      3b3 marks

      Complete the sentences to explain how a Newton's Third Law force pair on the foot and the ground is responsible for the motion of walking:

       When a person walks on the ground, there is a force from the ..................... which pushes the ..................... backward.

       From Newton's Third Law, there is an ..................... and ..................... force from the ..................... on the ..................... which pushes the foot forward.

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      4a1 mark

      Airbags are one of the many safety devices used in cars to protect the driver if there is a crash. Airbags protect the driver by

      • increasing the force acting on the driver

      • increasing the rate of change of momentum of the crash

      • increasing the time taken for the driver to stop

      • decreasing the time taken for the driver to stop

      Choose your answer

      4b3 marks

      A driver has a mass of 67 kg and drives at a velocity of 15 m/s. 

      (i) State the formula linking momentum, mass and velocity.

      (1)

      (ii) Calculate the momentum of the driver.

      (2)

      How did you do?

      4c3 marks

      The car is involved in a crash. The driver is wearing a seatbelt and comes to rest in 0.36 s.

       (i) State the equation linking force, change in momentum and time.

      (1)

      (ii) Show that the force on the driver is about 2800 N.

      (2)

      How did you do?

      4d3 marks

      A passenger with the same mass as the driver is also in the car at the time of the crash.

      They were not wearing a seatbelt and experienced an impact force that was 5 times greater than the force experienced by the driver.

      Calculate the time taken by the passenger to come to a stop.

       time taken = .............................................................. s

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      5a2 marks

      The principle of conservation of momentum applies when two objects collide. 

      State the principle of conservation of momentum.

      How did you do?

      5b5 marks

      A student is investigating conservation of momentum using an air track and two gliders, A and B, which both have magnets attached, as shown in the diagram.

      1-3-q5b-e-air-track-momentum-conservation-sq-igcse

      Initially, glider A has a momentum of 0.50 kg m/s and moves towards glider B, which is at rest. The gliders collide and the magnets cause them to move in opposite directions.

       Both gliders are identical and each has a mass of 0.250 kg.

       (i) State and explain whether the poles of the magnets are opposite or alike.

      (2)

      (ii) State the total momentum of glider A and glider B after the collision.

      (1)

      (iii) Calculate the velocity of glider A before the collision.

      (2)

      velocity of glider A = ............................................... m/s

      How did you do?

      5c1 mark

      What is the velocity of glider B after the collision?

      • 1 m/s

      • 2 m/s

      • 3 m/s

      • 4 m/s

      Choose your answer

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      1a5 marks

      The photograph shows a hammer just before it hits a nail.

      1-2-2p-1-q2a

      The mass of the hammer is 0.50 kg. When it hits the nail, the hammer is travelling downwards with a velocity of 3.1 m/s.

      (i) State the relationship between momentum, mass and velocity.

      (1)

      (ii) Calculate the momentum of the hammer.

      (2)

       momentum = ............................... kg m/s

      (iii) The hammer stops quickly when it hits the nail.

      The momentum of the hammer reduces to zero in 0.070 s.

      Calculate the amount of force that causes this to happen.

      (2)

       force = ........................................ N

      How did you do?

      1b2 marks

      As it enters the wood, the nail exerts a force on the wood. At the same time, the wood exerts a force on the nail. 

      Explain how these two forces are related.

      How did you do?

      1c2 marks

      Both ends of the nail exert pressure when the nail goes into the wood.

      1-2-2p-1-q2c

      Explain why the nail exerts more pressure on the wood than it does on the hammer.

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      2a3 marks

      An ice skater throws a 0.23 kg snowball with a velocity of 13 m/s.

      1-3-q3a

      (i) State the equation linking momentum, mass and velocity.

      (1)

      (ii) Calculate the initial momentum of the snowball.

      (2)

      initial momentum = .......................... kg m/s

      How did you do?

      2b3 marks

      When the skater throws the snowball forwards, she slides backwards on the ice.

      Explain why she moves in this direction.

      How did you do?

      2c3 marks

      The skater wears soft knee pads that compress easily. 

      Explain how the pads protect her knees when she falls on the ice.

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      3a4 marks

      Some cars have a pedestrian airbag for safety. If a pedestrian is hit and lands on the front of the car, the airbag inflates.

      4-2-4a

      Use ideas about momentum to explain how this airbag can reduce injuries to pedestrians.

      How did you do?

      3b5 marks

      In a crash test, a car runs into a wall and stops.

      1-3-q4c

      The momentum of the car before the crash is 22 500 kg m/s.

      The car stops in 0.14 s.

      (i) Calculate the average force on the car during the crash.

      (2)

      average force = .......................... N

      (ii) Use ideas about momentum to explain how seat belts can reduce injuries to passengers during a crash.

      (3)

      How did you do?

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      4a2 marks

      Cars have a number of features that make them safer in a collision.

      Apart from seat belts, name two safety features that reduce the risk of serious injury in a car crash.

      How did you do?

      4b5 marks

      Photograph A shows a person wearing a seat belt.

       

      1-3-q5b

      (i) Using ideas of momentum and force, explain how a seat belt reduces the risk of serious injury in a car crash.

      (4)

      (ii) Photograph B shows a full-body harness used in a racing car.

       

      1-3-q5b1

      Suggest why a full-body harness is used in a racing car, instead of an ordinary seatbelt.

      (1)

      How did you do?

      4c1 mark

      Photograph C shows a crash-test dummy in a car. The car has crashed into a concrete wall.

       

      1-3-q5c

      State what happens to the momentum of the car during the crash.

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      5a6 marks

      A student is playing a game with some empty tins.

      2-4-3a

      He throws a wet cloth of mass 0.15 kg at the tins. The wet cloth moves at a velocity of 6.0 m/s.

      (i) State the equation linking momentum, mass and velocity.

      (1)

      (ii) Calculate the momentum of the wet cloth and give the unit.

      (3)

       Momentum = ................................ unit ...................

      (iii)

      The wet cloth sticks to tin 1.

      2-4-3b

      The mass of tin 1 is 0.050 kg. The cloth and tin 1 move away together. 

      Calculate the velocity of the cloth and tin 1.

      (2)

      Velocity = .......................... m/s

      How did you do?

      5b2 marks

      The student throws a bigger wet cloth at the remaining tins. This wet cloth sticks to tins 2 and 3 and they move away together.

      2-4-3-d

      The student concludes

      2-4-3d

      Do you agree with this conclusion? Explain why.

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      1a1 mark

      A bowling ball rolls for 3 s and hits a pin.

      2-4-5a

      The graph shows how the velocity of the ball changes with time.

      2-4-5b

      Describe how can the graph be used to find the distance that the ball rolls before it hits the pin.

      How did you do?

      1b4 marks

      The mass of the ball is 6.4 kg.

      (i) State the equation linking momentum, mass and velocity..

      (1)

      (ii) Calculate the momentum of the ball before it hits the pin. Give the unit.

      (3)

      Momentum = ..................... unit ......................

      How did you do?

      1c4 marks

      (i) Use the graph to determine the velocity of the ball after it hits the pin.

      (1)

      Velocity = ............................ m/s

      (ii) After the collision, the ball and the pin have the same velocity. Calculate the mass of the pin.

      (3)

       Mass = .................................... kg

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      2a5 marks

      Newton's Cradle consists of a set of identical solid metal balls hanging by threads from a frame so that they are in contact with each other. 

      4-2-2a

      A student initially pulls ball A to the side as shown. The student releases ball A and it collides with ball B.

      (i) State the equation linking momentum, mass and velocity.

      (1)

      (ii) Each ball has a mass of 100 g. At the time of collision, ball A has a velocity of 3 m/s.

      Calculate the momentum of ball A at the time of impact and give the unit. 

      (3)

       Momentum = ........................... unit ....................

      (iii) After the collision, ball A stops. Ball E moves away. The other balls remain still.

      204-2b

      The momentum of ball E as it moves away is the same as the momentum of ball A at the time of impact. 

      Suggest a reason for this. 

      (1)

      How did you do?

      2b2 marks

      The student then releases balls A and B together as shown below.

      2-4-2c

      Predict what will happen to the other balls after the collision and gives a reason for your answer. 

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      3a1 mark

      State the equation linking momentum, mass and velocity.

      How did you do?

      3b3 marks

      A truck of mass 10 000 kg is moving with a velocity of 4.5 m/s. 

      A car of mass 1500 kg has the same momentum as the truck. 

      Calculate the velocity of the car.

      (3)

      velocity = .......................... m/s

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      4a5 marks

      A boy of mass 43.2 kg runs and jumps onto a stationary skateboard.

      The boy lands on the skateboard with a horizontal velocity of 4.10 m/s.

      (i) State the relationship between momentum, mass and velocity.  

      (1)

      (ii) The skateboard has a mass of 2.50 kg.

      Using ideas about conservation of momentum, calculate the combined velocity of the boy and skateboard just after the boy lands on it.

      (4)

       combined velocity = ............................................... m/s

      How did you do?

      4b2 marks

      The boy holds a heavy ball as he stands on a stationary skateboard. The boy throws the ball forwards while still standing on the skateboard.

      1-3-q1b

      Explain what happens to the boy and the skateboard.

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      5a3 marks

      A lorry carries a load of hot asphalt – a runny mixture of small stones and tar.

      2-4-1a

      The mass of the lorry and its load is 17 000 kg. The velocity is 13 m/s. 

      (i) State the equation linking momentum, mass and velocity.

      (1)

      (ii) Calculate the total momentum of the lorry and its load.

      (2)

       Momentum = ............................... kg m/s

      How did you do?

      5b5 marks

      The lorry stops suddenly and the load slides to the front, as shown below.

      2-4-1b

      Force A and force B are upward forces from the road on the lorry.

      (i) Use ideas about momentum to explain why the load slides to the front when the lorry stops suddenly.

      (2)

      (ii) Use ideas about moments to explain why force B increases when the load slides to the front.

      (3)

      How did you do?

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