Syllabus Edition

First teaching 2023

First exams 2025

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Work, Energy & Power (SL IB Physics)

Exam Questions

4 hours53 questions
1
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1 mark

What is the equation for kinetic energy?

  • Ek = mgh

  • Ek = 1 half k x squared

  • Ek = 1 half m v squared

  • Ek = Fs

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2
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Which of the following statements about gravitational potential energy is correct?

  • If a mass falls it will lose gravitational potential energy

  • If a mass is lifted up it will lose gravitational potential energy

  • If a mass falls it gains gravitational potential energy

  • If a mass travels horizontally then gravitational potential energy is lost

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3
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Which of the following is the correct definition for elastic potential energy?

  • Elastic potential energy is a measure of how much a material can be stretched or compressed

  • Elastic potential energy is the maximum amount that can be stretched or compressed

  • Elastic potential energy is a measure of the stiffness of a material

  • Elastic potential energy is the energy stored within a material (e.g. in a spring) when it is stretched or compressed

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4
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Which feature of a force-extension graph represents the work done on a material under tensile stress?

  • Gradient

  • Area

  • y-intercept

  • x-intercept

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5
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What is a material with a high breaking stress described as?

  • Strong

  • Brittle

  • Ductile

  • Elastic

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6
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Which one of the following situations does not describe the work done on an object?

  • Lifting a bar above the head

  • Pushing a supermarket trolley across a car park

  • Walking up stairs

  • Holding a box at a height of 1.5 m above the floor

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7
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What are the correct units for power?

  • Joules

  • Watts

  • Newton meters

  • Newtons

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8
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Which row describes an energy transfer? 

  • Elastically

  • Chemically

  • Gravitational Potentially

  • Electrically

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9
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What is another way of saying that energy is wasted?

  • Energy has been transferred

  • Energy has been dissipated

  • Energy has been conserved

  • Energy has been destroyed

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10
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Which is the correct equation for the efficiency of a system?

  • Efficiency = fraction numerator useful space energy space in over denominator total space energy space out space end fraction space cross times space 100

  • Efficiency = fraction numerator wasted space energy space out over denominator total space energy space out space end fraction space cross times space 100

  • Efficiency = fraction numerator useful space energy space out over denominator total space energy space in space end fraction space cross times space 100

  • Efficiency = fraction numerator energy space transferred over denominator time space end fraction space cross times space 100

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11
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Engineers are able to compare fuels by unit to analyse efficiency when designing new cars.

Which of the rows below correctly match the units of specific energy and the energy density? 

 

Specific Energy

Energy Density

A.

J

J

B.

Nm

kg m−3

C.

J kg−1

J m−3

D.

kg m2 s−2

 J kg m−3

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    12
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    Sankey diagrams are used to represent energy transfers. 

    Which Sankey diagram shows the most efficient lightbulb?

    8-1-ib-sl-easy-mcq-q2-phy

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      13
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      The Sankey diagram for a new toaster is being analysed in a laboratory. 

      What is the correct amount of energy supplied to the bread as heat?

      8-1-q3-ib-sl-mcq-phy

      • 60 J

      • 40 J

      • 100 J

      • 0 J

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      14
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      Fuels can be compared per unit by analysing specific energy or energy density. 

      Which formula is correct for the density of a material?

      • density = specific energy × energy density

      • density = specific energy + energy density

      • d e n s i t y space equals space fraction numerator E n e r g y space d e n s i t y over denominator S p e c i f i c space e n e r g y end fraction

      • d e n s i t y space equals space fraction numerator S p e c i f i c space e n e r g y over denominator E n e r g y space d e n s i t y end fraction

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      1
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      A trampolinist bounces up and down on their trampoline.

      Which row states the energy transformations that take place in the system when the trampolinist bounces down on the trampoline and back up again. Assume that air resistance is negligible.

      • Gravitational potential → elastic potential → kinetic →  elastic potential → gravitational potential

      • Gravitational potential → kinetic → elastic potential → kinetic → gravitational potential 

      • Kinetic → gravitational potential → elastic potential → gravitational potential → kinetic 

      • Gravitational potential → kinetic → elastic potential → gravitational potential 

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      2
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      An object falls from rest from a height h close to the surface of the Moon. The Moon has no atmosphere.

      When the object has fallen to height h over 3 above the surface, what is

                                          fraction numerator g r a v i t a t i o n a l space p o t e n t i a l space e n e r g y space o f space t h e space o b j e c t space a t space h over denominator k i n e t i c space e n e r g y space o f space t h e space o b j e c t space a t space begin display style h over 3 end style end fraction

      • 3

      • 1 third

      • 2 over 3

      • 3 over 2

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      3
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      1 mark

      A horizontal spring of spring constant k and negligible mass is compressed through a distance y from its equilibrium length. An object of mass m that moves on a frictionless surface is placed at the end of the spring. The spring is released at speed  v and returns to its equilibrium length.q13_work-energy-power_ib-sl-physics-mcq

      What is the value of y?

      • square root of m over k end rootv

      • square root of k over m end rootv

      • m over kv

      • k over mv

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      4
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      1 mark

      A student states three scenarios in which she thinks no work is done on an object.

      1. A pulling force on a sledge being pulled at an angle.
      2. A charged particle in a magnetic field.
      3. A drag force acting a car.

      Which of the above scenarios is / are correct?

      • I and II only

      • I and III only

      • II only

      • All three

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      5
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      The power generated by the nuclear reactions in the core of the reactor is 35 GW.

      If the efficiency of the power station is 60%, how much power goes into producing wasted energy?

      • 35 GW

      • 21 GW

      • 14 GW

      • 18 GW

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      6
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      A particle is thrown vertically upwards with a velocity v. It travels up to the highest point at X h m above the ground and it falls back down through point Y at 3 over 5h m above the ground.

      screenshot-2023-08-21-121416

      Assuming air resistance is negligible, what is v of the particle at point Y?

      • square root of fraction numerator 2 g h over denominator 5 end fraction end root

      • 2square root of fraction numerator g h over denominator 5 end fraction end root

      • 4square root of fraction numerator g h over denominator 5 end fraction end root

      • square root of fraction numerator 3 g h over denominator 5 end fraction end root

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      7
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      1 mark

      A student of mass 50 kg climbs a vertical ladder 4.0 m tall in a time of 8.0 s. What is the power developed by the student against gravity?

      • 25 W

      • 200 W

      • 1000 W

      • 250 W

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      8
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      The efficiency of an electric motor is 80 %. When lifting a body, the amount of energy wasted is E subscript w. What is the useful work done by the motor?

      • E subscript w over 4

      • E subscript W

      • 0.8 E subscript W

      • 0.4E subscript w

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      9
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      A lift is operated by an electric motor. It moves between the 21st and the 5th floor at a constant speed. One main energy transformation during this journey is:

      • Electric energy → Gravitational potential energy 

      • Gravitational potential energy → Kinetic energy

      • Electric energy → Thermal energy

      • Kinetic energy → Electric energy

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      10
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      An object of mass m rest on top of a spring with a spring constant k whose base is attached to the floor.

      What is the energy stored by the spring?

      • fraction numerator m squared g squared over denominator 2 k end fraction

      • fraction numerator m squared g squared over denominator 2 k squared end fraction

      • fraction numerator m g over denominator 2 k end fraction

      • fraction numerator m g over denominator 2 end fraction

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      11
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      Energy density is a property of a substance which is calculated by multiplying its specific energy with which quantity?

      • Volume

      • Mass

      • Volume × mass

      • fraction numerator Mass blank over denominator Volume end fraction

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      12
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      The Sankey diagram shows the energy transformations in a laptop computer while a person is watching a film.

      q13_energy-sources_ib-sl-physics-mcq

      What is the efficiency of the laptop?

      • 3 %

      • 8 %

      • 31 %

      • 69 %

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      1
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      To exit an underground cave network, an electric winch is used to raise a lift containing four cavers back to the surface. 

      q21_work-energy-_-power_aqa-as-physics-mcq

      Each caver has a mass of 50 kg and the lift has a mass of 340 kg. The winch raises the lift through a vertical height of 2 km in 3 minutes. 

      Assuming that the acceleration due to free-fall is 10 m s−2, what is the total power wasted by the winch when the motor is 75% efficient?

      • 80 kW

      • 20 kW

      • 60 kW

      • 10800 kW

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      2
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      A 4 kg mass is released from rest at a height of 5 m and falls to the ground pulling a 3 kg mass up the slope. The rough surface of the ramp provides a constant frictional force of 3 N. 

      q24_work-energy-_-power_aqa-as-physics-mcq

      Use the acceleration due to free fall g = 10 m s−2.

      What speed will the 4 kg mass hit the ground? 

      • 250 over 7 m s−1

      • square root of 430 over 7 end root m s−1

      • square root of 220 over 7 end root m s−1

      • square root of 250 over 7 end root m s−1

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      3
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      A stone of mass kg is dropped from a height of 15 m above the surface of a thick, oily liquid. The surface of the liquid is 2 m above the ground. 

      q25_work-energy-_-power_aqa-as-physics-mcq

      The resistive force acting on the stone as it falls through the liquid is equivalent to 3mg N. Assume the acceleration due to free fall = 10 m s−2 and air resistance is negligible.

      What is the speed of the stone when it has travelled m through the liquid?

      • 2 square root of 5 left parenthesis 15 space minus space 2 x right parenthesis end root m s−1

      • 10m(15 − 2x) m s−1

      • 2 square root of 5 left parenthesis 15 minus x right parenthesis end root m s−1

      • 2 square root of 15 left parenthesis 5 minus x right parenthesis end root m s−1

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      4
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      1 mark

      The diagram shows a pulley in a crane system. An elevator m1 is used to lift building materials.  A counterbalance m2 is used in the system. is the acceleration due to free fall. 

      q26_work-energy-_-power_aqa-as-physics-mcq

      What rate does the motor provide energy to the system when the elevator is rising at a steady speed m s−1?

      • m1gv

      • 1 half m subscript 1 v squared

      • gv(m1 − m2)

      • gv(m1 + m2)

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      5
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      A wire undergoes elastic deformation. The force-extension graph is shown below. 

      2-3-ib-sl-hmcq6-q

      What is the work done on the wire to increase the extension from 4.0 to 5.0 cm? 

      • 0.09 J

      • 0.25 J

      • 2.0 J

      • 0.010 J

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      6
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      The diagram shows the design of a water wheel which drives a generator to produce electrical energy. The flow rate of the water is 100 000 g s−1. The generator supplies a current of 10 A at a potential difference of 240 V. Assume the acceleration due to free fall is 10 m s−2

      q27_work-energy-_-power_aqa-as-physics-mcq

      Ignore any changes in the kinetic energy of the water. What is the efficiency of the system?

      • 0.3 %

      • 3 %

      • 3.33 %

      • 30 %

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      7
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      A bunjee jumper has 0.036 MJ of gravitational potential energy at the top of the jump. He is attached to an elastic rope that starts to stretch after half the time of his fall has elapsed. The table below shows values of his gravitational potential energy, GPE, his kinetic energy KE, and the elastic potential energy in the rope, EPE. 

       

      GPE / MJ

      EPE / MJ

      KE / MJ

      Top

      0.036

      0

      0

      Bottom

      0

      0.036

      0

      What are the possible values of gravitational potential, elastic potential and kinetic energy when the bungee jumper is a quarter of the time through his fall? Assume that no energy is lost through air resistance. 

       

      GPE / kJ

      EPE / kJ

      KE / kJ

      A. 21 0 15
      B. 9 0 27
      C. 9 18 9
      D. 18 9 9

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        8
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        Two springs Sand S hang vertically whilst being attached to a horizontal rod. A force is applied to the bottom of Sand it extends by with an elastic potential energy, in the spring. 

        The same load is applied to the bottom of S2. The extension of Sis one third of the extension of S1.

        diagram-22

        What is the equation for elastic potential energy in S2?

        • fraction numerator 2 E over denominator 3 end fraction

        • 3E

        • 9E

        • E over 3

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        9
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        Water flows from a lake into a turbine that is a vertical distance of 90 m below the lake, as shown.

        q23_work-energy-_-power_aqa-as-physics-mcq

        The mass flow rate of the water is 3000 kg min–1. The turbine has an efficiency of 60%. Acceleration due to free fall is 10 m s−2.

        What is the output power of the turbine?

        • 1.62 kW

        • 27 kW

        • 45 kW

        • 2700 kW

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        10
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        What is the efficiency of a system whose Sankey diagram is shown below?

        8-1-sl-mcq-hard-q2-phy

        The Sankey diagram is drawn to scale.

        • 10%

        • 20%

        • 30%

        • 40%

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        11
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        A coal-fired power station with an efficiency ε burns fuel that has an energy density and a specific energy S. The rate at which the mass of the fuel is consumed is M.

        What is the power output of the power station? 

        • fraction numerator D space cross times space M over denominator epsilon end fraction

        • fraction numerator M space cross times space S over denominator epsilon end fraction

        • ε × M × S

        • ε × × M

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        12
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        An industrial estate of five factories is powered entirely by solar panels.

        On an average day, one factory consumes 100 kWh of energy.

        One solar panel has a surface area of 2.5 m2 and an efficiency of 25%. At this location, the average intensity of sunlight received is 8 kWh m−2 per day.

        How many solar panels are needed to meet the energy demands of the industrial estate?

        • 10

        • 100

        • 1000

        • 10 000

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