According to the EIA, the average American household uses 897 kWh of energy per month. Knowing that number, and how your own home’s usage compares, provides insight into the amount of energy you use per device. Our Energy Estimator will show you why simple changes like programming your thermostat or turning off televisions and computers when not in use will help lower energy costs.


Of FirstEnergy’s two plans, “Residential Fixed Price” (July 2019) and “Residential Fixed Price” (July 2020), the longer term contract comes with a reduced rate, per usual. If you’re hesitant to enter into a lengthy commitment because you’re planning to move within the next year or two, it’s nice to know that FirstEnergy builds a moving loophole into its cancellation policy. If you’re changing addresses and FirstEnergy does not service your new neighborhood, it doesn’t levy a cancellation fee. Opting out for any other reason comes with a $50 fee, cheaper than any other flat-rate cancellation fee we’ve seen. In fact, it might still be cheaper to go with the longer contract if you aren’t sure when you’ll move, or whether you can take your FirstEnergy service with you.
In Pennsylvania, you can choose from the EGSs operating in your area, or stay on with your default provider — your EDC. Currently, less than half of all Pennsylvania’s residential customers have made the switch. If you’re among that number, moving to an EGS could get you cheaper rates, better rewards, and more say in what fuels generate your electricity. Whichever you choose, your electricity will get to you just the same because the EDC is always responsible for delivery.
The mid to late 1880s saw the introduction of alternating current (AC) systems in Europe and the U.S. AC power had an advantage in that transformers, installed at power stations, could be used to raise the voltage from the generators, and transformers at local substations could reduce voltage to supply loads. Increasing the voltage reduced the current in the transmission and distribution lines and hence the size of conductors and distribution losses. This made it more economical to distribute power over long distances. Generators (such as hydroelectric sites) could be located far from the loads. AC and DC competed for a while, during a period called the War of Currents. The DC system was able to claim slightly greater safety, but this difference was not great enough to overwhelm the enormous technical and economic advantages of alternating current which eventually won out.[1]
Although electricity had been known to be produced as a result of the chemical reactions that take place in an electrolytic cell since Alessandro Volta developed the voltaic pile in 1800, its production by this means was, and still is, expensive. In 1831, Michael Faraday devised a machine that generated electricity from rotary motion, but it took almost 50 years for the technology to reach a commercially viable stage. In 1878, in the United States, Thomas Edison developed and sold a commercially viable replacement for gas lighting and heating using locally generated and distributed direct current electricity.
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