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Work, power and efficiency - AQAElectrical appliances

Energy is a key principle in physics, as it allows work to be done. The rate at which energy is transferred is called power and the amount of energy that is usefully transferred is called efficiency.

Part of Physics (Single Science)Energy

Electrical appliances

There are many electrical appliances that are used in the home to transfer electrical energy to other useful forms.

ApplianceUseful energyWasted energy
Electric kettleEnergy that heats the water.Internal (thermal) energy heating the kettle. Infrared radiation lost to the surroundings.
Hair dryerInternal (thermal) energy heating the air. Kinetic energy of the fan that blows the air.Sound radiation. Internal (thermal) energy heating the hairdryer. Infrared radiation lost to the surroundings.
Light bulbLight radiation given out by the hot filament.Infrared radiation lost to the surroundings.
TVLight radiation that allows the image to be seen. Sound radiation that allows the audio to be heard.Internal (thermal) energy heating the TV set. Infrared radiation lost to the surroundings.
ApplianceElectric kettle
Useful energyEnergy that heats the water.
Wasted energyInternal (thermal) energy heating the kettle. Infrared radiation lost to the surroundings.
ApplianceHair dryer
Useful energyInternal (thermal) energy heating the air. Kinetic energy of the fan that blows the air.
Wasted energySound radiation. Internal (thermal) energy heating the hairdryer. Infrared radiation lost to the surroundings.
ApplianceLight bulb
Useful energyLight radiation given out by the hot filament.
Wasted energyInfrared radiation lost to the surroundings.
ApplianceTV
Useful energyLight radiation that allows the image to be seen. Sound radiation that allows the audio to be heard.
Wasted energyInternal (thermal) energy heating the TV set. Infrared radiation lost to the surroundings.

The greater the amount of the supplied electrical energy that the appliance transfers to useful energy stores, the more efficient the device will be. This can be shown in an energy transfer diagram.

Example

A kettle will transfer the supplied electrical energy to both useful and wasted energy stores. The useful energy store will heat the water and the wasted energy stores will be dissipated to the surroundings.

Energy transfer diagram of water with figures.

As efficiency is calculated using the equation:

\(efficiency = \frac{useful~power~transferred}{total~power~supplied}\)

\(efficiency = \frac{180,000}{200,000}\)

\(efficiency = 0.9\)

Question

What are the useful and wasted stores of energy for a washing machine?