Energy!

Energy Stores & Transfers

Heating & Energy Transfer

Energy Resources & Electricity

Efficiency & Calculations

Environment & Big Ideas

100

Name one energy store.

Chemical / kinetic / thermal / gravitational potential / elastic potential / nuclear / magnetic / electrostatic.

100

What is conduction?

Transfer of heat through a solid by vibrating particles.

100

What is a renewable resource?

A resource that will not run out.

100

What is power measured in?

Watts (W).

100

What gas is most abundant in Earth’s atmosphere?

Nitrogen.

200

What is the unit of energy?

Joules (J).

200

Where does heat energy move from and to?

From hot to cold areas.

200

Name the 3 fossil fuels.

Coal / oil / natural gas.

200

Write the equation linking energy, power and time.

Energy = Power × Time.

200

What process removes CO₂ from the atmosphere?

Photosynthesis or dissolving

300

State the main law about energy

Energy cannot be created or destroyed, only transferred (conservation of energy).

300

Which states of matter can convection occur in and what do we call these states?

Liquids and gases (fluids)

300

What is released when fossil fuels are burned?

Carbon dioxide.

300

A 10 W device transfers 200 J. How long does it run?

20 seconds.

300

Name the 3 greenhouse gases.

Carbon dioxide / methane / water vapour.

400

Give one energy pathway.

Heating / radiation / mechanical work / electrical transfer.

400

Why do heated fluids rise in convection?

They become less dense as particles spread out.

400

Describe how a fossil fuel power station generates electricity.

Chemical energy → thermal energy (steam) → kinetic energy (turbine) → electrical energy.

400

A device uses 500 J and produces 400 J useful energy. Efficiency?

80%.

400

Why are black surfaces good absorbers of radiation?

They absorb infrared radiation effectively.

500

Describe an energy transfer in a wind turbine.

Kinetic energy of wind → kinetic energy of blades → electrical energy.

500

Why are metals good thermal conductors?

They have free electrons that transfer energy quickly.

500

Name 3 gases in the atmosphere that make up LESS than 1% of the air

Carbon dioxide, helium, krypton, methane, hydrogen

500

A device uses 2.4 kW of power for 3.5 hours. Calculate the total energy transferred with the correct units and explain what this value represents.

Energy (kWh) = Power (kW) × Time (hours) 2.4×3.5=8.4kWh This means the device has used 8.4 kilowatt-hours of energy, which is the total amount of electrical energy consumed over the 3.5 hours.

500

Describe how carbon from the atmosphere could end up going back into the atmosphere by combustion thousands of years later?

Carbon enters plants → buried as fossil fuels → burned by combustion → released back into the atmosphere as CO₂