P1,2,3

Question 1

What is the equation for kinetic energy? Give SI units for all quantities involved.

Answer 1

1⁄2 m v^2

1⁄2 x Mass x (Velocity)^2

Energy (J), Mass(kg), Velocity(m/s)

Question 2

What is the equation for elastic potential energy? Give SI units for all quantities involved.

Answer 2

1⁄2 k x^2

1⁄2 x Spring Constant x (Extension)^2

Energy (J), Spring Constant (N/m), Extension(m)

Question 3

What is the equation for gravity potential energy? Give SI units for all quantities involved.

Answer 3

mgh

Mass x Gravitational Field Strength x Height

Energy (J), Mass(kg), Gravitational Field Strength (N/kg),
Height (m)

Question 4

Define the ‘Specific Heat Capacity’ of a substance.

Answer 4

The amount of energy needed to raise the temperature of 1 kilogram of a substance by 1 degree Celsius.

Question 5

State the units for Specific Heat Capacity.

Answer 5

J/kg °C

Joules/Degree Celsius/Kilogram

Question 6

What is the definition of ‘Power’?

Answer 6

The rate at which energy is transferred (or rate at which work is done).

Question 7

State two equations for power. Give SI units for all quantities involved.

Answer 7

1. power = energy transferred/time
2. power = work done/time

Energy (J), Work Done (J), Time (s)

Question 8

What is the unit of power?

Answer 8

Watt (W)

Question 9

Two motors lift the same mass through the same height. Motor A does this in half the time of Motor B. Which dissipates the most power?

Answer 9

Motor A.

This is because the energy transferred is the same but the time taken is less (P=E/t).

Question 10

Describe the energy changes involved when a ball is thrown upwards and then returns to its starting position. Ignore air resistance.

Answer 10

● Upwards: KE is converted to GPE

● Peak: Maximum GPE, zero KE

● Downwards: GPE is converted to KE

KE (Kinetic Energy), GPE (Gravitational Potential Energy)

Question 11

Describe the energy transfers for a bungee jumper.

Answer 11

● When falling, the GPE is converted to KE of jumper

● As the cord tightens, KE is converted and stored as Elastic Potential Energy (EPE)

● At lowest point, the jumper’s initial GPE equals the EPE stored in the cord

Question 12

Explain why a bungee jumper slows down once the cord begins to stretch.

Answer 12

● Kinetic energy decreases since it is converted to elastic potential energy

● Since KE is proportional to (velocity)^2, as KE decreases, so does velocity.

Question 13

Give examples of chemical energy stores.

Answer 13

● Food

● Fuel (eg. wood, coal, petrol)

● Batteries

Question 14

State 4 different stores of energy.

Answer 14

1. Kinetic Energy
2. Gravitational Potential Energy
3. Elastic Potential Energy
4. Chemical Energy

Question 15

State the law of energy conservation.

Answer 15

Energy cannot be created or destroyed (it can only be transferred into different forms).

Question 16

State any changes in the total energy of a ball that is kicked, assuming that no external forces act.

Answer 16

The total energy of the system remains constant due to the conservation of energy.

Question 17

What is waste energy?

Answer 17

The energy that is not used by the device for its desired purpose.

Question 18

Describe the energy changes that occur in a filament light-bulb.

Answer 18

● Electrical energy is transferred into light and heat energy

● Light is a useful energy form, heat is waste energy

Question 19

State two equations to calculate efficiency.

Answer 19

efficiency =Useful Output Energy Transfer/Total Input Energy Transfer

OR

efficiency =Useful Power Output/Total Power Output

Question 20

How can the efficiency of a system be increased?

Answer 20

1. Reducing waste output (by lubrication, thermal insulation etc.)
2. Recycling waste output (eg. recycling thermal waste energy as input energy)

Question 21

State the consequence for energy transfer of a material with a high thermal conductivity.

Answer 21

The rate of energy transfer through the material is higher than for a material with a lower thermal conductivity.

Question 22

Do double-glazed windows have a higher or lower thermal conductivity than single-glazed windows?

Answer 22

Lower, meaning less energy transfers through them.

Question 23

What key factors affect the rate of cooling of a building?

Answer 23

● The thickness of the walls

● The thermal conductivity of the walls

Question 24

State three methods of reducing heat loss in a building.

Answer 24

1. Double glazing
2. Loft and wall insulation
3. Thicker walls

Question 25

How can the efficiency of a mechanical machine with moving parts be improved? (HIGHER ONLY)

Answer 25

Lubricate any moving parts to reduce the friction and therefore energy loss due to heating.

Question 26

How can the efficiency of a radiator be improved?
(HIGHER ONLY)

Answer 26

Installing metal foil sheets behind the radiator to reflect the heat back into the room rather than it being absorbed into the walls.

Question 27

How can the efficiency of boiling water in a pan be improved?
(HIGHER ONLY)

Answer 27

By placing a lid on the pan to reduce the heat loss from the top.

Question 28

What is a renewable energy resource?

Answer 28

An energy source which can be replenished as it is being used up.

Question 29

Give four examples of renewable energy resources.

Answer 29

1. Wind Energy
2. Hydro-Electricity
3. Tidal Energy
4. Solar Energy

Question 30

Give an example of a non-renewable energy resource.

Answer 30

Fossil fuels (for example coal, oil and gas).

Question 31

What are the advantages of generating power using gas rather than coal?

Answer 31

● Flexible Generation: Gas power stations have short start-up times so
can be switched on/off more readily

● Lower emissions of carbon dioxide

Question 32

State two disadvantages of using renewable energy resources to generate power.

Answer 32

● Output often determined by external factors (like wind speed), so supply is uncertain

● Generating power through other means is often more efficient and economically beneficial

Question 33

Explain the environmental impacts of burning fossil fuels.

Answer 33

● Carbon Dioxide contributes to the greenhouse effect, and causes global warming

● Sulphur Dioxide leads to acid rain, which can damage buildings and crops

Question 34

State three advantages of fossil fuels as an energy resource.

Answer 34

1. Reliable: Not dependent on external factors so can generate power anytime
2. Can produce large amounts of energy for a given quantity
3. Still relatively abundant, so cost-effective

Question 35

State three advantages of nuclear power.

Answer 35

1. Very large amounts of energy for relatively small quantities of fuel
2. Doesn’t release greenhouse gases and so doesn’t contribute to climate change
3. Low fuel costs

Question 36

State three disadvantages of nuclear power.

Answer 36

1. Produces nuclear waste which is harmful to humans & must be safely stored for centuries.
2. Non-Renewable energy source
3. Risk of nuclear accidents, which have fatal consequences on humans and the environment

Question 37

How does hydroelectric power produce energy?

Answer 37

● Rainwater collects behind a dam

● When this water is released, it is used to turn a turbine

● This turbine turns a generator which produces electricity

Question 38

What are some disadvantages of using biofuels?

Answer 38

When plants are burned or decay they release CO2 In order to grow biofuels, you need to destroy land which leads to problems because:

● The land could have been natural habitats

● Destroying land may involve burning plants growing on it, which would release CO2

● growing biofuels reduces the land available for growing food

Question 39

What are the advantages of tidal energy sources?

Answer 39

● They do not produce greenhouse gases

● They are quite reliable, as tides happen twice a day

● They are cheap to run as tides are natural, and so are free

Question 40

What are the disadvantages of hydroelectric power?

Answer 40

● The dam may cause flooding

● It can cost a lot to install the required infrastructure

Question 41

What are some advantages of solar panels?

Answer 41

● They don’t cause harm to the environment

● They are a renewable resource

● They can be used in remote areas where other types of energy are less accessible

Question 42

Give an example of a social factor which may act as a deterrent for certain types of energy production.

Answer 42

● Visual Pollution

● Sound Pollution

(both of these are disadvantages of wind farms)

Question 43

What is thermal conductivity?

Answer 43

Thermal conductivity is a measure of how well a material conducts energy when it is heated