The number of homes that 2400 megawatts can energize depends on the average power consumption of a home. On average, a US home uses about 11,000 kWh per year. Assuming a continuous power supply of 2400 megawatts, you could potentially power around 1.8 million homes.
It is 2400 million watts.
The number of homes that 3000 megawatts can power depends on the average electricity consumption per home. On average, a home consumes around 10,972 kilowatt-hours per year, which is approximately 1.25 kilowatts. Therefore, 3000 megawatts could power around 2.4 million homes.
Average power consumption for a person in the UK is 650 W. Assuming an average load of 3 kW per household 102 MW would power about 34,000 homes, sometimes more, sometimes less.
"Watts" is a rate of using energy, not an amount of energy.A broad-brush ballpark average rate of energy use by a household,averaged over a very long period of time, is something like 1,000 watts.So 2,500 megawatts of power is the rate needed to power2.5 x 109 / 103 = 2.5 million homes.
There are 250,000 watts in 0.25 megawatts. Mega denotes 1,000,000, so 0.25 megawatts is equal to 250,000 watts.
It is 2400 million watts.
1.2 million homes
The average household in the United States uses about 8,900 kilowatt-hours of electricity each year. That is 8.9 megawatts. So 781/8.9 = 87 homes.
The number of homes that 3000 megawatts can power depends on the average electricity consumption per home. On average, a home consumes around 10,972 kilowatt-hours per year, which is approximately 1.25 kilowatts. Therefore, 3000 megawatts could power around 2.4 million homes.
Average power consumption for a person in the UK is 650 W. Assuming an average load of 3 kW per household 102 MW would power about 34,000 homes, sometimes more, sometimes less.
Well, isn't that a lovely question! On average, one megawatt can power around 1,000 homes, so 22,500 megawatts could power approximately 22.5 million homes. Just imagine all those happy little houses glowing with warmth and light!
250 Megawatts = 250,000,000 Watts.
60 gigawatts is equal to 60,000 megawatts since each gigawatt is equivalent to 1,000 megawatts.
"Watts" is a rate of using energy, not an amount of energy.A broad-brush ballpark average rate of energy use by a household,averaged over a very long period of time, is something like 1,000 watts.So 2,500 megawatts of power is the rate needed to power2.5 x 109 / 103 = 2.5 million homes.
There are 28800 twelfths in 2400.
There are 250,000 watts in 0.25 megawatts. Mega denotes 1,000,000, so 0.25 megawatts is equal to 250,000 watts.
The number of homes that one windfarm can power varies depending on the size and location of the windfarm, as well as the average electricity consumption per household. On average, a typical onshore wind turbine with a capacity of 2-3 megawatts can power around 500-900 homes per year.