GCSE AQA Physics Energy Transfers: Figure 14 shows an electrical ci

Question

Figure 14 shows an electrical circuit used to heat the windsreen of a car.
Each resistor in the circuit represents a heating element.

The 12 V battery supplies direct potential difference.
What is meant by 'direct potential difference'?

Use the Physics Equations Sheet to answer questions 10.2 and 10.3.

Which equation links charge flow (Q), energy (E) and potential difference (V)?

Tick (✓) one box.

$E = \frac{V}{Q}$  
$E = QV$  
$E = Q$  
$E = \frac{V^2}{Q}$

Calculate the charge flow through the 12 V battery when the battery transfers 5010 J of energy.

Ice forms on the windscreen at a temperature of 0 °C.

The electrical circuit transfers 5010 J of energy to the ice.

A mass of 0.015 kg of ice melts.

Calculate the specific latent heat of fusion of water.
Use the Physics Equations Sheet.

The electrical circuit was left switched on while the ice changed from a solid to a liquid and increased in temperature to 5 °C.

Explain the changes in the arrangement and movement of the particles as the ice melted and the temperature increased to 5 °C.

Figure 14 shows an electrical circuit used to heat the windsreen of a car - AQA - GCSE Physics - Question 10 - 2023 - Paper 1