Syllabus Edition

First teaching 2014

Last exams 2024

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Momentum & Impulse (DP IB Physics: SL)

Topic Questions

4 hours44 questions
1
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1 mark

What is the equation for momentum?

  • p space equals space F s

  • p space equals space m v

  • p space equals space 1 half m v squared

  • p space equals space F capital delta t

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2
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A tennis ball is thrown at a wall and then bounces off. 

2-4-q2-sl-easy-mcq-phy-png

Which row states the correct directions for the velocity, v, before and after hitting the wall?

 

Before collision

After collision

A.
B. +
C. +
D. + +

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    3
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    1 mark

    A car drives into a wall. The change in momentum is 17 000 kg ms−1 and the time of impact is 0.1 seconds. 

    What is the force acting on the car as a result of the collision?

    • 17 000 N

    • 1 700 000 N

    • 170 000 N

    • 1700 N

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    4
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    Which of the following is the correct equation for impulse?

    • I space equals space m v space – space m u

    • I space equals space F capital delta p space

    • I space equals space capital delta t space

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

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    5
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    Which feature on a force-time graph represents the impulse?

    • Gradient

    • y-intercept

    • Area 

    • x-intercept

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    6
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    1 mark

    Before a collision object A is stationary and object B is travelling at 1 ms−1

    What is the correct symbol and value for the initial velocity of object A?

    • uB  = 0

    • u= 0

    • vA = 0

    • u= 1

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    7
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    What is the definition of an external force?

    • Forces that act on a system from outside of it

    • Forces exchanged by the particles in a system

    • Every action has an equal and opposite reaction

    • The rate of change of momentum on a body

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    8
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    What is the definition of an inelastic collision?

    • A collision where kinetic energy is conserved

    • A collision where the momentum is conserved

    • A collision where both objects are stationary after the collision

    • A collision where kinetic energy is not conserved

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    9
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    What is the main purpose of the crumple zone in a car?

    • To decrease the contact time over which a collision occurs.

    • To increase the contact time over which a collision occurs.

    • To reduce the mass of the car involved in the collision.

    • To reduce damage to the rest of the car in a collision.

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    10
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    What type of collision are explosions?

    • Elastic

    • Conserved

    • Inelastic

    • Impulsive 

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    1
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    A force acts on a mass of 5.0 kg and it is initially at rest.

    q11_momentum--impulse_ib-sl-physics-mcq 

    What is the time taken for the mass to reach an acceleration of 2 m s-2?

    • 2.50 s

    • 2.20 s

    • 2.25 s

    • 2.00 s

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    2
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    A body of mass 3M at rest explodes into two pieces of mass 2M and M

    What is the ratio fraction numerator k i n e t i c italic space e n e r g y italic space o f italic space italic 2 M over denominator k i n e t i c italic space e n e r g y italic space o f italic space M end fraction and fraction numerator italic m italic o italic m italic e italic n italic t italic u italic m italic space italic o italic f italic space italic 2 italic M over denominator italic m italic o italic m italic e italic n italic t italic u italic m italic space italic o italic f italic space italic M end fraction?

     

     

    fraction numerator bold italic k bold italic i bold italic n bold italic e bold italic t bold italic i bold italic c bold italic space bold italic e bold italic n bold italic e bold italic r bold italic g bold italic y bold italic space bold italic o bold italic f bold italic space bold italic 2 bold italic M over denominator bold italic k bold italic i bold italic n bold italic e bold italic t bold italic i bold italic c bold italic space bold italic e bold italic n bold italic e bold italic r bold italic g bold italic y bold italic space bold italic o bold italic f bold italic space bold italic M end fraction fraction numerator bold italic m bold italic o bold italic m bold italic e bold italic n bold italic t bold italic u bold italic m bold space bold italic o bold italic f bold space bold 2 bold italic M over denominator bold italic m bold italic o bold italic m bold italic e bold italic n bold italic t bold italic u bold italic m bold space bold italic o bold italic f bold space bold italic M end fraction

    A.

    1 half

    -1

    B.

    1

    -1

    C.

    1 fourth

    2

    D.

    1 half

    -2

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      3
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      Which of the following is an elastic collision?

      • A ball dropped from a height and bouncing up to a lower height

      • Two railway trucks colliding and they link together

      • Two gas molecules collide and a bond is formed between them

      • Two gas molecules collide and then travel perpendicular to each other

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      4
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      A ball of mass m travels horizontally and strikes a vertical wall with a speed of vinitial ms-1. It then rebounds horizontally at speed vfinal ms-1. The ball is in contact with the wall for time Δt.q4-2-4m-momentum-and-impulse-mcq

      What is vfinal if the ball rebounds after an impulse of magnitude I?

      A.

       vfinal fraction numerator italic 1 italic plus v subscript i n i t i a l end subscript over denominator m end fraction

      B.

       vfinal fraction numerator italic 1 italic plus m v subscript i n i t i a l end subscript over denominator m end fraction

      C.

       vfinal fraction numerator italic 1 italic minus m v subscript i n i t i a l end subscript over denominator m end fraction

      D.

       vfinal fraction numerator italic 1 italic minus sign italic v subscript italic i italic n italic i italic t italic i italic a italic l end subscript over denominator italic m end fraction

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        5
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        1 mark

        A stone of mass 0.5 kg is thrown with an initial speed of 10 m s-1 at an angle θ to the vertical. P is the highest point of the motion and air resistance is negligible.

        q15_momentum--impulse_ib-sl-physics-mcq

        What is the momentum of the stone at P?

        • 5 sin θ

        • 5

        • 5 cos θ

        • 0

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        6
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        1 mark

        A truck T moving horizontally collides with an identical truck S that is at rest.q16_1_momentum--impulse_ib-sl-physics-mcq

         T strikes S with speed 2v.

        What is a possible outcome of the collision?q16_2_momentum--impulse_ib-sl-physics-mcq

         

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          7
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          A ball of mass m strikes a vertical wall with a speed v at an angle of θ to the wall. The ball rebounds at the same speed and angle in time t. What is the magnitude of the impulse on the wall?

          q17_momentum--impulse_ib-sl-physics-mcq

          • zero

          • 2mv

          • 2mv sin θ

          • 2mv cos θ

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          8
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          1 mark

          A ball of mass 4.0 kg, initially at rest, is acted on by a force F which varies with t.

          q18_momentum--impulse_ib-sl-physics-mcq

          What is the velocity of the ball after 14 s?

          • 7 m s-1

          • 56 m s-1

          • 14 m s-1

          • 28 m s-1

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          9
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          1 mark

          Which of the following is true for momentum and impulse?

          • Momentum is conserved in an inelastic collision

          • Impulse is the momentum 

          • The direction in which an object is travelling in doesn’t affect its impulse

          • A heavier object always experiences a greater impulse than a lighter one

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          10
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          Two balls m and 2m collide elastically with speeds v and 2v respectively. After the collision, they both move in opposite directions.q20_momentum--impulse_ib-sl-physics-mcq

          What speed does the 2m ball move with after the collision?

          A.

           square root of 5 over 2 end rootv

          B.

          5 over 2v

          C.

           square root of 1 half end rootv

          D.

          1 halfv

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            1
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            Water is ejected from the nozzle of a hose through a hole of a diameter 2 cm. The water leaves the nozzle of the hose with a velocity of 25 cm s–1 and travels horizontally towards a wall, as shown below.

            2-4-sl-mcq-hard-q1-phy-1

            After colliding with the wall the water has zero velocity.  Water has a density of 1 g cm–3.

            What is the force exerted by the water on the wall?

            • 625π g cm s-2

            • 25π g cm s-2

            • fraction numerator 625 pi over denominator 4 end fraction N

            • 2500π g cm s-2

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            2
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            A ball of mass 0.60 kg is kicked off a cliff with a horizontal velocity of 3.0 m s–1.  It follows the path of a projectile shown below and lands with a velocity of 4.0 m s–1 at an angle of 30o to the ground.  Air resistance is negligible during the flight.

            2-4-sl-mcq-hard-q2-phy

            What is the magnitude of the change in momentum of the ball between the top of the cliff and the ground below?

            You may need to use the following trigonometric values to help you:

            cos(30) = fraction numerator square root of 3 over denominator 2 end fraction

            sin(30) = 1 half

            • 1.2 square root of 3 N s

            • 0.6 N s

            • 2 N s

            • 1.2 N s

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            3
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            A BB gun fires 4 g ball bearings at a rate of 100 balls per minute. The balls leave the BB gun at a velocity of 20 m s–1 and strike a fixed steel block.  The balls rebound off the block with the same velocity as they were fired.

            What is the average force exerted on the steel container?

            • 16 N

            • fraction numerator 0.16 over denominator 60 end fraction N

            • 16 over 60 N

            • 1600 over 60N

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            4
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            Two trolleys, X and Y, are connected by an elastic cord, of negligible mass, as shown below. Trolley X is twice the mass of trolley Y.

            2-4-sl-mcq-hard-q4-phy

            The two trolleys are pulled apart so that the elastic cord is stretched. The trolleys are then released at the same time and move towards each other.  The trolleys stick together on impact. 

            Just before the trolleys collide, the speed of trolley X is 20 cm s–1.

            What is the speed of the trolleys after they collide?

            • 20 cm s−1

            • 0 cm s−1

            • 10 cm s−1

            • 30 cm s−1

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            5
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            1 mark

            The diagram below shows a block of mass 2 kg sliding down a rough slope from rest against a constant friction force of 2.5 N.

            Use the following assumptions to help you:

            Acceleration due to free fall is 10 m s−2

            cos(20) = 0.9

            sin(20) = 0.3

            q26_linear-momentum_aqa-as-physics-mcq

            What is the momentum of the block along the slope after 5 seconds?

            • 7.75 kg m s−1

            • 38.75 kg m s−1

            • 77.5 kg m s−1

            • 17.5 kg m s−1

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            6
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            A car of mass 3000 kg is travelling at 5 m s–1 when it collides with a wall and is brought to rest.  The force-time graph of the impact is shown below.

            q27_linear-momentum_aqa-as-physics-mcq

            What is the maximum force exerted on the car?

            • 15 000 N

            • 300 000 N

            • 75 N

            • 3000 N

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            7
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            The variation of the force, F, with time, t, acting on a mass of 160 g is shown on the graph below.

            q28_linear-momentum_aqa-as-physics-mcq

            The velocity of the body at t = 10 ms is 5 m s–1.

            What is the velocity of the body at t = 35 ms?

            • 30 m s−1

            • 835 over 32 spacem s−1

            • 27 over 8 m s−1

            • 675 over 32 m s−1

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            8
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            Particle P has a mass m and is moving towards a stationary particle, Q, of mass M.  P is travelling with a velocity of u before colliding head on with particle Q.  The collision between the particles is elastic.

            What is the velocity of particle Q after the collision? 

            • fraction numerator 2 m u over denominator M space plus space m end fraction

            • fraction numerator left parenthesis M space minus space m right parenthesis u over denominator M end fraction

            • u

            • 2mu

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            9
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            Two spheres approach each other along the same straight line. Their speeds are u1 and u2 before collision, and v1 and v2 after collision, in the directions shown below

            q12_linear-momentum_aqa-as-physics-mcq

            Which equation is correct if the collision is perfectly elastic?

            • u1 – u2 = v2 – v1

            • u1 – u2 = v2 + v1

            • u1 + u2 = v2 + v1

            • u1 + u2 = v2 – v1

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