Original Answer:
we culd not rate power that depends on loads we r using in our houses.
Updated Answer:
The vast majority of homes in the U.S. have 100-amp or 200-amp service at 240 volts, which is 24 kilowatts to 48 KW of load. 80% of that is 19.2 KW and 38.4 KW for a properly rated home. However, most homes use far less than that throughout the day and only approach those values during peak load times such as doing laundry while running the air conditioning, doing the dishes, vacuuming, watching TV in each room, using the electric stove, and having all of the lights turned on at the same time; generally not a situation that most home owners will face.
9 megawatts a year
1 megawatt = 1,000,000 watts1 kilowatt = 1,000 wattsSo 544 million kilowatts is 524,000,000,000 watts. In megawatts this is 524,000 MW. Or 524 gigawatts (GW)
1.2 million homes
The megawatt-hour is unit of energy. The megawatt is unit of power. So, conversion is impossible.Let me know 5793.553 megawatts-hour (assume E) were obtained over what period of time in hours (assume T), then the average value for the megawatts (assume P) is:P = E / T
The component of current is missing so question can not be answered. W = A x V.
250 Megawatts = 250,000,000 Watts.
60 gigawatts is equal to 60,000 megawatts since each gigawatt is equivalent to 1,000 megawatts.
There are 250,000 watts in 0.25 megawatts. Mega denotes 1,000,000, so 0.25 megawatts is equal to 250,000 watts.
435000 megawatts.
It is 2400 million watts.
Nothing.
9 megawatts a year
4 megawatts = 4,000,000 (4 million) watts Mega means Million.
To convert megawatts thermal to Btu, you can use the conversion factor of 1 MW (thermal) = 3,412,141 Btu/h. Therefore, to convert, simply multiply the number of megawatts thermal by 3,412,141 to get the equivalent in Btu.
10,000,000 watts
12000 megawatts
1 MW = 10 to the power 6 Watts (in the new wiki answers type face).