### Theory:

Electricity is used in both households and industries. The amount of electricity consumed is determined by two factors. They are
1. The amount of electricity consumed
2. The duration of usage
The product of electric power and its usage time is used to calculate the electrical energy consumed.

If an electric appliance of power $$200\ watt$$ is utilised for $$3\ hours$$, then the total electric power consumption is

Electrical energy consumption is quantified and stated in watt-hours, even though the SI unit is watt-second. But in reality, a larger electrical energy unit is required. The higher units of electrical energy are watt-hour ($$W\ h$$) or kilowatt-hour ($$kW\ h$$).

In terms of joules,

$1\phantom{\rule{0.147em}{0ex}}\mathit{watt}\phantom{\rule{0.147em}{0ex}}\mathit{hour}\phantom{\rule{0.147em}{0ex}}=3600\phantom{\rule{0.147em}{0ex}}J$

Kilowatt is the larger unit of power that is most commonly used in the devices.

$\begin{array}{l}1\phantom{\rule{0.147em}{0ex}}\mathit{kilowatt}\phantom{\rule{0.147em}{0ex}}\mathit{hour}\phantom{\rule{0.147em}{0ex}}=\phantom{\rule{0.147em}{0ex}}1\phantom{\rule{0.147em}{0ex}}\mathit{kilowatt}\phantom{\rule{0.147em}{0ex}}×\phantom{\rule{0.147em}{0ex}}1\phantom{\rule{0.147em}{0ex}}\mathit{hour}\\ \\ =1\phantom{\rule{0.147em}{0ex}}\mathit{kW}\phantom{\rule{0.147em}{0ex}}×\phantom{\rule{0.147em}{0ex}}\left(60×60\right)\phantom{\rule{0.147em}{0ex}}s\\ \\ =1000\phantom{\rule{0.147em}{0ex}}W\phantom{\rule{0.147em}{0ex}}×3600\phantom{\rule{0.147em}{0ex}}s\\ \\ =\phantom{\rule{0.147em}{0ex}}3.6×{10}^{6}\phantom{\rule{0.147em}{0ex}}J\end{array}$

In terms of megajoules,

$1\phantom{\rule{0.147em}{0ex}}\mathit{kW}\phantom{\rule{0.147em}{0ex}}h\phantom{\rule{0.147em}{0ex}}=\phantom{\rule{0.147em}{0ex}}3.6\phantom{\rule{0.147em}{0ex}}M\phantom{\rule{0.147em}{0ex}}J$

The energy consumed for domestic purposes is measured using the electric meter in the units of a kilowatt-hour.

Horse power:
Another unit called horse power ($$hp$$) is also used to express electric power. It is one of the units in the foot-pound second (FPS) system or English system.

Example:
Two bulbs are have the ratings as $$60\ W$$, $$220\ V$$ and $$40\ W$$, $$220\ V$$ respectively. Which one has a greater resistance?

Electric power, $P\phantom{\rule{0.147em}{0ex}}=\frac{{V}^{2}}{R}$

For the same value of $$V$$, $$R$$ is inversely proportional to $$P$$. Therefore, the lesser the power, the greater the resistance. Hence, the bulb with $$40\ W$$, $$220\ V$$ rating has greater resistance.