Electrical Energy (CIE IGCSE Physics: Co-ordinated Sciences (Double Award))

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Katie M

Last updated

28 August 2024

Energy transfer in electrical circuits

As electricity passes around a circuit, energy is transferred from the power source to the various components
- As charge passes through the power supply, energy is transferred to the charge
- As the charge passes through each component, energy is transferred from the charge to the component
- The component will often dissipate some of that energy to the surroundings

Energy transfers in a circuit

Current and energy, IGCSE & GCSE Physics revision notes Charge gains energy from the power supply, and transfers the energy to the components

Some domestic appliances transfer energy from the chemical store of cells and batteries, such as mobile phones, laptops, and remote controls
Most larger household appliances transfer energy electrically from the mains supply

Lots of household appliances contain motors
- Vacuum cleaners: to create the suction to suck in dust and dirt off carpets
- Washing machines: to rotate the drum to wash (or dry) clothes
- Refrigerators: to compress the refrigerant chemical into a liquid to reduce the temperature
Energy is transferred electrically from the mains supply to the kinetic store of the motor in the appliance

Lots of household appliances contain heaters
- Toasters: to heat up food
- Kettles: to boil water
- Boiler in a central heating system: hot water is pumped from the boiler so the radiator can heat up a room
Energy is transferred electrically from the mains supply to the thermal store of the heater.

Energy transfers in common household appliances

energy-transfers-appliances-

Energy is transferred electrically from the mains supply to the kinetic store of the motor in a washing machine, or to the thermal store of the heating element in a toaster

Electrical energy equation

The amount of energy transferred by an electrical appliance depends on:
- how long the appliance runs for
- the power rating of the appliance
Electrical energy can be calculated using the following equation:

$E = V I t$

Where:
- $E$ = energy, measured in joules (J)
- $V$ = potential difference, measured in volts (V)
- $I$ = current, measured in amps (A)
- $t$ = time, measured in seconds (s)

Worked example

A washing machine runs a cycle for 3 hours and 16 minutes. The potential difference of the mains supply is 230 V. A current of 10.0 A flows through the washing machine for the duration of the cycle.

Determine the amount of energy transferred from the mains supply during the cycle. Give your answer in MJ.

Answer:

Step 1: List the known quantities

Potential difference, $V = 230 V$
Current, $I = 10.0 A$
Time, $t = 3 hrs 16 \min$

Step 2: Convert the time to seconds

1 hour = 60 mins

$3 \times 60 = 180 \min$

$180 + 16 = 196 \min$

1 min = 60 s

$196 \times 60 = 11 760 s$

Step 3: Write out the equation for electrical energy

$E = V I t$

Step 4: Substitute in the known values to calculate

$E = 230 \times 10 \times 11 760$

$E = 27 048 000 J$

Step 5: Give your answer in MJ

1 MJ = 1 000 000 J

$E = 27 MJ$

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