Electrical Power

Key Stage 4

Meaning

Electrical power is the rate of electrical energy transfer in an component.

About Electrical Power

The SI Units of electrical power are Watts.

Electrical power is the work done by an electrical current per unit time.

Equations

Power, Work Done and Time

NB: You must remember this equation.

Power = (Electrical Work Done)/(time)

\(P=\frac{W}{t}\)

Where\[P\] = Electrical Power.

\(W\) = Electrical Energy Transferred or Work Done by an electrical current.

\(t\) = The time over which energy is transferred.

Power, Current and Potential Difference

NB: You must remember this equation.

Power = (Current) x (Potential Difference)

\(P=IV\)

Where\[P\] = Electrical Power.

\(I\) = Electrical Current through a component.

\(V\) = Potential Difference across the component.

Power, Current and Resistance

NB: You must remember this equation.

Power = (Current)² x (Resistance)

\(P=I^2R\)

Where\[P\] = Electrical Power.

\(I\) = Electrical Current through a component.

\(R\) = The resistance of the component.

Power Potential Difference and Resistance

NB: You must remember this equation.

Power = (Current) x (Potential Difference)

\(P=\frac{V^2}{R}\)

Where\[P\] = Electrical Power.

\(V\) = Potential Difference across the component.

\(R\) = The resistance of the component.