Watt Hour Vs. Amp Hour

Watts and Watt-Hours

• Virtually all equipment and appliances have power consumption ratings in terms of watts. A 15-watt fluorescent lamp, for example, consumes electric power at a slower rate than a toaster with a 1,000-watt rating. Watts multiplied by hours gives watt-hours, a measure of total energy consumed over time. If you run the 1,000-watt toaster for five minutes, that is one-twelfth of an hour times 1,000 watts or 83.33 watt-hours. If you leave the 15-watt fluorescent lamp on for six hours, it is a total of 90 watt-hours -- more total power consumed. Your electric meter measures kilowatt-hours, or units of 1,000 watts an hour. To make the meter advance by one unit, the appliances, lights and electronics in your house consumed 1,000 watt-hours of energy.

Amp-Hour

• Alkaline batteries in AA, AAA, C and D cell sizes all produce the same voltage fresh out of the package: about 1.5 volts. The batteries differ not only by size, but also by capacity: the larger the battery, the greater its current capacity. For large batteries, this is measures in amp-hours; for small batteries, it is milliamp-hours. If a D cell battery has a capacity of 12,000 milliamp-hours and you use it in a 200-milliamp flashlight, the battery lasts 60 hours. Used in a smaller, 50-milliamp flashlight, the battery lasts 240 hours.

Watt-Hours for Batteries

• Battery manufacturers rate batteries in amp-hours as a convenience; they could just as easily rate them in watt-hours. For example, a 1.5-volt D cell battery of 12,000 millamp-hours stores a total of 18,000 milliwatt-hours, or 18 watt-hours of energy. Watt-hours acknowledges a battery̵7;s voltage and amp-hours ignores it. As long as your units are consistent, either measure will work.

Changing Voltage

• Your electric meter measures kilowatt-hours instead of kiloamp-hours because household appliances consume power in two voltages: 110-volt and 220-volt. Kilowatt-hours takes into consideration both the voltage and the current used. Battery ratings in amp-hours work because a battery̵7;s voltage stays fairly constant as a device consumes its power.