# Energy and power in electric circuits

## Heating up wires

As flow through wires, they collide with the in the wire which causes the ions to more. This increased vibration of the ions increases the temperature of the wire. Energy has been transferred from the chemical energy store of the battery into the internal energy store of the wire.

The amount of energy transferred each second () between the can be calculated using the equation:

power = current × potential difference

This is when:

• power (P) is measured in watts (W)
• (I) is measured in amps (A)
• (V) is measured in volts (V)

One watt is equal to one joule per second (J/s).

Power dissipated in a resistance can also be written as:

power = current2 × resistance

• power (P) is measured in watts (W)
• current (I) is measured in amps (A)
• (R) is measured in ohms (Ω)

### Example

How much energy is transferred each second by a current of 2 amps (A) driven by a potential difference of 230 volts (V)?

Question

What power is dissipated by a current of 3 A through a 10 Ω ?

## Efficient transmission of power - Higher

Energy can be transferred by an electrical current - any electrical appliance needs to be given enough energy every second. Electrical power can be delivered as a low current with a high , or a high current with a low voltage.

power = current2 × resistance

The equation shows that a high current will have a much higher heating effect on the transmission wires than a low current. For this reason, transmitting energy at a high voltage with a low current will keep the wires cooler and waste less energy.

Reducing the resistance of the wires will also reduce unwanted energy transfer, but reducing the current will have a much more significant effect.

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