Energy, Work & Power (CIE IGCSE Physics: Co-ordinated Sciences (Double Award))

Exam Questions

4 hours62 questions
1a2 marks

Fig. 4.1 shows an electric circuit.

circuit
An electric current transfers energy from the battery to the filament lamp.

State the two energy transfer pathways for the energy emitted by the filament lamp.

1b1 mark

State which store of energy in the battery is decreasing.

1c1 mark

Explain how the principle of conservation of energy applies to this circuit.

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22 marks

A drone is a machine that can fly. Fig. 4.1 shows a drone rising into the air, lifting a camera.

18-32-2a

The drone obtains energy from a battery of cells.

Complete the sequence of useful energy transfers as the drone rises into the air. One part is done for you.

  
  
................................. store  →  kinetic store  →  ............................. store

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3a2 marks

A bouncy ball is dropped from a height of 1.65 m onto a smooth wooden floor, where it bounces, reaching a height of 1.43 m.

The bouncy ball has a mass of 0.07 kg

 

Complete the energy transfers taking place when

 
(i)
the ball is falling towards the floor
 
 
.................................... energy store → kinetic energy store [1]
 
(ii)
the ball hits the floor and deforms
 
 
kinetic energy store → .................................... energy store [1]
3b2 marks

Extended tier only

Calculate the energy in the gravitational potential store of the ball just before it is dropped.

 
 
 energy = .................................... 
3c4 marks

Extended tier only

Calculate the speed at which the bouncy ball hits the floor.

For the purposes of this calculation, you can assume there is no air resistance.

 
 
speed = .................................... 
3d3 marks

The bounce height is smaller than the height the ball was dropped from.

Explain why this is the case.

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4a1 mark

Identify the unit for energy.

 

Tick one box.

 

square N

square K

square J

4b1 mark

State why work done is equal to energy transferred.

4c2 marks

Fork-lift trucks are used to move crates in warehouses. Fig. 1.1 shows a crate being lifted to high shelf.

fork-lift-truck

Fig. 1.1

The fork-lift truck lifts a crate of 450 N to a shelf that is 3.9 m above the ground.

 

Calculate the work done to lift the crate.

 
 
work done = .................................... 
4d3 marks

Extended tier only

The total energy input for the fork-lift truck to lift the crate is 2500 J 

 

Calculate the efficiency of the fork-lift truck.

 
efficiency = .................................... 

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5a2 marks

A group of students want to measure their power output when climbing a ladder. 

Student A has a mass of 54 kg and takes 15 s to climb the ladder which has a vertical height of 1.8 m.

 

Calculate the work done in raising the student's body mass as they climb the ladder.

 
 
work = .................................... 
5b2 marks

Calculate the power output of Student A in raising their body mass up the ladder.

 
 
power output = .................................... 
5c3 marks

Extended tier only

Student A's body is only 17% efficient when climbing the ladder. 

 

Calculate the total power input of the student to climb the ladder. 

 
 
power input =  .................................... 
5d2 marks

State the energy transfer taking place as student A climbs the ladder.

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63 marks
Here are some statements about energy and energy resources.
 
Some statements are correct. Put a tick () in the box alongside each of these.
 

square Building hydroelectric power stations has an impact on the environment.

square Burning fossil fuels produces atmospheric pollution.

square Wind turbines are turned using gravitational potential energy.

square Coal and crude oil are sources of renewable energy.

square Geothermal energy is obtained from hot rocks below the ground.

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7a2 marks

Coal is a non-renewable source of energy.

(i)
Explain what is meant by the term non-renewable.

[1]

(ii)
There are other non-renewable sources of energy.

Place a tick in the box by each non-renewable source of energy.
  
square nuclear
square oil
square solar
square wave
square wind
 
[1]
7b4 marks

State two advantages and two disadvantages of using natural gas as an energy source.

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8a2 marks

Fig. 5.1 shows part of a solar farm. The solar panels tilt and rotate.

cie-2019-9

The solar farm converts energy from a source into a different, useful form of energy.

 

State the energy source and the useful form of energy.

8b3 marks

Solar farms have advantages and disadvantages.

 
(i)
State two advantages of a solar farm.
[2]
 
(ii)
State one disadvantage of a solar farm.
[1]
8c1 mark

Suggest why it is useful that the panels can tilt and rotate.

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9a2 marks

Fill in the gaps in the sentence below about energy sources.

Two methods of using energy from water are ____________ and _____________.

9b2 marks

State two advantages of one of the methods from part (a).

9c1 mark

A graph of the energy output of two renewable resources over time is shown in Fig. 1.1. One is a solar cell, the other is a wind turbine.

1-8-4c-e-graph-wind-solar

Fig. 1.1

State which line on the graph represents the energy output of a solar cell.

9d2 marks

Explain how you arrived at your answer to part (c).

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10a1 mark

Define the term "renewable resource".

10b4 marks

A list of resources is shown in the table below. 

Resource Renewable Non-renewable
Coal  
Nuclear fuel    
Biofuel    
Solar energy    
Oil    

   
Place a tick in the correct box for each resource.

10c2 marks

Fossil fuels are produced when living matter is compressed. They are continually produced. 

Explain why they are not a renewable resource. 

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1a4 marks

Extended tier only

Fig. 3.1 shows a model of a wind turbine used to demonstrate the use of wind to generate electricity. The wind is blowing towards the model, as shown.

fan

The mass of air passing through the circular area swept out by the turbine blades each second is 7.5 kg. The energy in the kinetic store of the air that passes through this circular area each second is 240 J.

 

(i)
Calculate the speed of the air. 
  

speed = ........................................................ [3]
 
(ii)
The moving air drives a generator. State the input power of the air passing through the turbine blades.
 

input power = ........................................................ [1]

1b4 marks

Extended tier only

The output current of the generator is 2.0 A. The output potential difference (p.d.) of the generator is 11 V.

 
(i)
Calculate the output power of the generator. 
 
 
output power = ........................................................ [2]
 
(ii)
Calculate the efficiency of the wind turbine. 
 

efficiency = .................................................... % [2]
1c2 marks

The density of air is 1.3 kg / m3.


Calculate the volume of air passing through the circular area swept out by the turbine blades each second.

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2a1 mark

Extended tier only

A force is used to move an object from the Earth’s surface to a greater height.

 
Explain why the energy in the gravitational potential store of the object increases.

2b2 marks

Extended tier only

Fig. 2.1 shows a train moving up towards the top of a mountain.

feb-march-2018-42-q2b
 

The train transports 80 passengers, each of average mass 65 kg, through a vertical height of 1600 m.

 
Calculate the increase in energy stored in the gravitational potential store of the passengers.

 

increase in energy = .........................................................

2c4 marks

Extended tier only

The engine of the train has a power of 1500 kW. The time taken to reach the top of the mountain is 30 minutes.

 
Calculate the efficiency of the engine in raising the 80 passengers 1600 m to the top of the mountain.

 

efficiency = .........................................................

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3a1 mark

State what is meant by the principle of conservation of energy.

3b2 marks

Fig. 3.1 shows a girl throwing a heavy ball.

18p4-2b

State the energy transfers that take place from when the girl begins to exert a force on the ball until the ball hits the ground and stops moving.

[2]

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4a3 marks

Extended tier only

Fig. 3.1 shows an aircraft on the deck of an aircraft carrier.

q3

The aircraft accelerates from rest along the deck. At take-off, the aircraft has a speed of 75 m/s.

The mass of the aircraft is 9500 kg.

Calculate the energy in the kinetic store of the aircraft at take-off.

 

 

 energy = ...........................................................

4b2 marks

On an aircraft carrier, a catapult provides an accelerating force on the aircraft. The catapult provides a constant force for a distance of 150 m along the deck.

 
Calculate the resultant force on the aircraft as it accelerates. Assume that all of the kinetic energy at take-off is from the work done on the aircraft by the catapult.

 

 

force = ...........................................................

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5a3 marks

An electric kettle contains water at a temperature of 19 °C. The kettle has a power rating of 3.0 kW and is switched on for 3.5 minutes. 

Calculate the energy supplied to the kettle by the electricity supply.

  
  
 energy = ........................................................ 
5b2 marks

Extended tier only

58 kJ of  energy is transferred to the water.

Calculate the efficiency of the kettle.

  
  
efficiency = ........................................................ 

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6a3 marks

Fig.4.1 represents a hydroelectric system for generating electrical energy.

feb-march-2018-32-q4

Describe how the power station uses the water in the reservoir to generate electricity.

6b3 marks

State three advantages of generating electricity using a hydroelectric system compared with using a coal-fired power station.

6c2 marks

An electric drill is shown in Fig.4.2. 

feb-march-2018-32-q4c1
Complete the sentences about the electric drill.
Use words from the box. Each word may be used once, more than once, or not at all.

 

efficient kinetic potential powerful reliable thermal

  

(i)
Energy is transferred electrically from the mains supply to the ............................. store of the drill. 
[1]
 
(ii)
A second electric drill transfers the same amount of energy per second as the first one. However, it wastes more of this energy.The second drill is less ......................................... than the first drill.[1]

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7a3 marks

Fig. 5.1 shows a wind turbine.

wind

Describe how the wind turbine produces electricity.

7b3 marks

Wind turbines are used in many countries to replace coal-fired power stations.

 
(i)
State one disadvantage of using wind turbines compared to coal-fired power stations.
[1]
 
(ii)
State two advantages of using wind turbines instead of coal-fired power stations.
[2]

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8a1 mark

A tidal barrage (dam) produces electricity using tides. Fig. 5.1 shows a diagram of a tidal barrage (simplified).

tidal-barrage

The water behind the barrage (dam) has most of its energy in one of its energy stores. State the name of this energy store.

8b3 marks

Explain how the tidal barrage (dam) produces electricity.

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9a3 marks

Fig. 5.1 shows a geothermal power station. It generates electricity.

q5

In a geothermal power station, the process of generating electricity includes seven stages.

 

Four of the stages are shown below.

 
P   steam turns a turbine
Q   hot underground rocks heat the cold water
R   the turbine spins a generator
S    hot water rises to the surface
 

The flow chart in Fig. 5.2 shows the seven stages, but it is incomplete. Complete the flow chart by adding the letters P, Q, R and S in the correct sequence.

 

q5-second

9b2 marks

The cost of electricity obtained from a geothermal power station is similar to the cost of electricity obtained from wind turbines.

 
Describe one advantage and one disadvantage of using a geothermal power station to generate electricity compared with using wind turbines.

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10a3 marks

Nuclear fission is used in nuclear power stations to release energy.

Describe how the energy is used to generate electricity.

10b2 marks

Describe two environmental problems that arise from using nuclear power stations.

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1a1 mark

Fig. 2.1 shows a fork-lift truck lifting a box.

OI6xqMJk_q2

The electric motor that drives the lifting mechanism is powered by batteries.

Name the store that energy is usefully transferred from by the batteries.

1b5 marks

Extended tier only

The lifting mechanism raises a box of mass 32 kg through a vertical distance of 2.5 m in 5.4 s.

 
(i)
Calculate the energy transferred to the gravitational potential energy store of the box.
  
 
 energy = ...........................................................[2]
 
(i)

The efficiency of the lifting mechanism is 0.65 (65%).

Calculate the input power to the lifting mechanism.

 

 

input power = ...........................................................[3]

1c2 marks

The batteries are recharged from a mains voltage supply that is generated in an oil-fired power station.

 

By comparison with a wind farm, state one advantage and one disadvantage of running a power station using oil.

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2a4 marks

A man is working on a platform. He uses a rope to raise a bag from the ground to the platform as shown in Fig. 4.1.

screenshot-2022-10-27-at-12-50-39
(i)
Name the energy store that energy is usefully transferred to as the bag is lifted at constant speed.
[1]
 
(ii)
The man then lifts a second bag from the ground to the platform. The first bag weighs 100 N and the second bag weighs 150 N.
  
On which bag of materials does the man do more work?
  
Explain your answer.
[1]
 
(iii)
The man wants to determine his useful power as he lifts one of the bags. He knows the weight of the bag. State the two other quantities he needs to know.
[2]
2b3 marks

The statements describe processes in a coal-fired power station. They are not in the correct order.

   

A  Energy is transferred to the thermal store of the water

B  Coal burns releasing energy from its chemical store

C  Energy is transferred electrically via the national grid

D  A turbine turns coils in a magnetic field

E  Steam turns a turbine
   

Use the letters A, B, C, D and E to complete the flow chart explaining how the power station works.

screenshot-2022-10-27-at-13-03-35

 

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3a5 marks

Extended tier only

A rifle fires a bullet of mass 0.020 kg vertically upwards through the air. As it leaves the rifle, the speed of the bullet is 350 m/s.

Calculate

 
(i)
the energy in the kinetic store of the bullet as it leaves the rifle,
 
 
energy = ...........................................................[3]
 
(ii)
the maximum possible height that the bullet can reach.
 
 
maximum height = ...........................................................[2]
3b4 marks

The actual height reached by the bullet is less than the value calculated in (a)(ii).

 
(i)
Explain, in terms of the forces acting on the bullet, why this is so.
[2]
 
(ii)
As the bullet rises through the air, the amount of energy in its kinetic store decreases.
 
State what happens to this energy.
[2]

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4a6 marks

Extended tier only

Salmon are born in freshwater rivers, spend most of their lives in the sea, but return to freshwater rivers to breed. As they swim up rivers, they often have to jump up waterfalls.

Fig. 1.1 shows a salmon attempting to jump up a waterfall with a vertical height of 0.36 m.

1-7-4a-h-salmon-waterfall-energy

Fig. 1.1 

The salmon has a mass of 1.84 kg.

 

The salmon leaves the water with a speed of 3.2 m/s.

 

Determine whether the salmon can make the height required for the jump.

4b4 marks

Extended tier only

Another salmon of mass 2.2 kg tries to make the jump. 

 

Calculate the minimum speed with which the salmon would have to leave the water in order to reach the height required.

 
 
speed = .................................... 
4c2 marks

The salmon swim further upstream and encounter a waterfall that is much higher than the previous one.

 

The salmon attempts the jump, but fails, and performs a somersault during the decent. The salmon straightens out before it enters the water as shown in Fig. 1.2.

1-7-4c-h-salmon-enters-water

Discuss whether the speed of entry into the water is greater than, less than or equal to the speed with which it leaves the water. Ignore any effects of air resistance.

4d1 mark

The temperature of the water at the bottom of a waterfall is greater than the temperature of the water at the top. 

Suggest why this is the case. 

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5a1 mark

Define power.

5b3 marks

A fairground amusement uses the arrangement shown in Fig. 1.1 to measure the individual power rating of customers.

 

1-7-5b-h-power-pulley-system

Fig. 1.1

 

In the table below, list the quantities they must measure and the instrument used for measuring them.

 
  quantity to be measured instrument used for measurement
1.    
2.    
3.    

5c1 mark

The mass of the load on the system is 30 kg. The length of rope able to pass through the pulley is 1.3 m. 

 

The man pulled the rope as hard as he could and the time taken was measured to be 1.2 s.

 
(i)
Determine the power rating of the man.
[3]
 
(ii)
The amusement gave the man a power rating of 300 W.
 
Suggest a reason for the discrepancy.
[1]
5d2 marks

Extended tier only

The man's body was only 19% efficient whilst pulling on the rope. 

Calculate the total energy he used.

 
 
energy used = .................................... 

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64 marks

State and explain one advantage and one disadvantage of heating water in a solar panel compared with heating water in a coal-burning boiler.

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7a1 mark

Energy sources used to generate electricity are shown in the box.

screenshot-2022-10-20-at-09-47-22

Which energy sources are non-renewable?

   

Draw a ring around each energy source that is non-renewable.

7b4 marks

The diagram shows a geothermal power station.

screenshot-2022-10-20-at-09-50-37

Describe how the geothermal power station generates electricity.

7c4 marks

In America, it is estimated that tidal power costs $150 per MWh, whereas coal costs $60 per MWh. This is partly due to construction costs of the turbines for tidal power. 

Suggest why it is expensive to construct tidal turbines. 

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8a7 marks

Extended tier only

Tidal power electrically transfers energy in the kinetic store of moving water. 

When the tide is moving, a portion of sea water passes through the turbine. The turbine has a cylindrical shape as the turbine spins in a circular path. A turbine is shown in Fig. 1.1.

The cylinder is 24 m long and has a radius of 5.0 m. The tide is travelling at 6.0 m/s.

1-8-4b-h-turbine

(i)
Calculate the kinetic energy of this cylinder of sea water.
   
Density of sea water = 1020 kg/m3
[4]
 
(ii)
Calculate the time taken for 24 m of water to pass through the turbine at 6.0 m/s.
[1]
 
(iii)
Calculate the power transferred to the turbine.
[1]
 
(iv)
The turbine's electrical power output is 7.0 MW. Calculate its efficiency.
[1]
8b2 marks

In America, it is estimated that tidal power would cost $150 per MWh produced, whereas coal only costs $60 per MWh produced. 

Suggest why tidal power is more expensive than power from fossil fuels.

8c2 marks

Some ocean environmental groups oppose the use of tidal power, stating that it can physically harm aquatic life, as well as impacting their ability to communicate. 

Suggest why these statements could be correct.

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9a4 marks

A coal power station has an average output of 400 MW. Explain how, in a power station, burning a fuel causes a generator to produce an alternating current.

9b2 marks

Extended tier only

The Sun has a total power output of 3.8 × 1026 W across its whole surface. The surface of the Earth receives 5.0 × 10−8 % of this power. 

Calculate the total power the surface of the Earth receives from the Sun.

9c4 marks

Extended tier only

The power that the Earth receives from the Sun is actually twice the percentage given in part (b).

(i)
Suggest why the power at the Earth's surface is less than this value.
[1]
 
(ii)
The Earth's radius is 6 370 000 m. Calculate the surface area of the Earth which is in sunlight at any one time. 
[3]
9d7 marks

Extended tier only

(i)
Under the assumption that there are no clouds obscuring the Sun, calculate the power that each square metre of the Earth receives from the Sun.
[2]
 
(ii)
A solar cell absorbs sunlight over a surface area of 2.5 m2. It has an efficiency of 0.6. Calculate its power output.
[3]
 
(iii)
Determine the number of solar cells required to match the power output of the coal power station.
[2]

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