Calculating the cost of electricity

Calculating the cost of electricity
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There are some times in life where decisions are based on cost of running an electrical devices. Comparative decisions based on, for example, wattage alone is real easy, but what about putting those values into an actual money value. This post will show you how.

This is an ongoing post. Please suggest corrections, explanations, etc. in the comment section at the bottom of this page.

If you are reading this, it probably means that you are commonly using electrical devices for certain functions. Common devices include light bulbs, cell phones, hair dryers, kettles, etc. These devices need electricty to function. So for this post, electricity (or electrical energy) will refer to the type of energy consumed by electrical devices to function. This electricity has to come from somewhere and commonly costs money to generate. For this post South African Rands (R) and cents (c) were used.

Voltage and Amperage

Whether the amount of electricity consumption is large or small, it is broken down into voltage (V) and amperage (A – the unit for current). Common voltages used today are 220V and 110V in wall sockets and 12V, 9V, 5V and 3.3V in power supplies and batteries. Common amperages seen are in the range of 15 – 30A for wall sockets and the range of 0.125A (125 mA) to 4A for smaller electronical devices.


Although some commercial electrical devices might already have a power consumption rating (expressed as watts) indicated on a label somewhere, this value can also be obtained multiplying the voltage and amperage values together. For example, a 220V device consuming 10A needs 220 x 10 = 2 200 watts of energy, or simply written as 2 200 W or 2.2kW. This means that if this device is turned on for 1 hour, it will consume 2 200 watt hours (2.2kW hours).

Electricity tariff

When looking at your local municipal electricity bill, the electricity tariff will be indicated in kW hours. In the example below, tariffs are given for basic consumption and for commercial use. Because the basic tariff is generally exceded, the commercial tariff should be used. Taking the example above, with an example tariff of R1.177200/kW hour, the device will cost 2.2kW hours x 1.177200 giving a rounded R2.59 to run for 1 hour.

An example of an electricity bill indicating the electricity tariff.

Smaller devices, lets say a 5V cell phone charger running at a full 1.5A, will consume 7.5W, which is 0.0075kW. If it takes your cell phone an hour to charge, it will cost 0.008c. Similarly a 15W light bulb will cost 0.0175c to burn for an hour.

About the author
Renier busies himself with improving his English writing, creative web design and his websites, photoshopping, micro-electronics, multiple genres of music, superhero movies and badass series.
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