about 10,000 KWh
1815/29 = 62.586 kWh per day, average energy usageAverage power consumption = 1,815,000/(29 x 24) = 2,607 watt-hours per hour = 2,607 watts
The number of appliances that can be used in 3.5 kWh depends on the energy consumption of each appliance. To calculate, divide 3.5 kWh by the average energy consumption of each appliance in kWh to determine how many can be used.
1 BTU = 1.055 kilojoules. For a nuclear plant with an electrical output of say 1000 MWe, the reactor thermal output will be about 3000 MW (at 33 percent efficiency), or 3000 Mega joules/second, which is 3000 x 1000 kilojoules/sec, or 3000/1.055 x 1000 BTU/sec. this reduces to 2.84 x 106 BTU/second, Scale it according to the actual electrical output of the plant.
A house does not use volts in a day but rather consumes energy measured in kilowatt-hours (kWh). The average household in the US uses about 30 kWh per day. Volts measure electrical potential, which determines the flow of electricity, while watt-hours measure the total energy consumed over a period of time.
1 mwh = 1000 kwh hence 4 mwh = 4000 kwh
One KwH = Kwxhr going by the basics, the question should be understood as the average units consumed per household. An average household may consume about 3000 units in a year.
Depends on the total connected load of the house.
There are two main factor to calculate an electric bill of a house. 1. Tariff per KWH 2. The load of House in terms of KW If you have average consumption of your house then you can calculate easily your house bill. For example you have average use of 100 KWH per month and tariff is $2.00 for 1 KWH then you average bill will be $400 per month. But again it depends the home appliances being used in your house and tariff defines by the electric company.
the new galaxy s3 is insane you need 3000 kwh
I have a 2800sf home and a pool, I live in North Texas. During the summer its about 3000 kwh or $300 to $400 a month. During the winter its about 1500 kwh or $150 to $200 a month.
1815/29 = 62.586 kWh per day, average energy usageAverage power consumption = 1,815,000/(29 x 24) = 2,607 watt-hours per hour = 2,607 watts
The number of appliances that can be used in 3.5 kWh depends on the energy consumption of each appliance. To calculate, divide 3.5 kWh by the average energy consumption of each appliance in kWh to determine how many can be used.
The average elementary school uses about 350,000 kwh per year. This can depend on how big a school is. The average home uses 10,000 kwh per year, for comparison.
Probably near the Russian average of 2400 kWh per year or 6.6 kWh per day. That is an average load of 276 watts so the supply would need to be rated at about 4 kW.
1 BTU = 1.055 kilojoules. For a nuclear plant with an electrical output of say 1000 MWe, the reactor thermal output will be about 3000 MW (at 33 percent efficiency), or 3000 Mega joules/second, which is 3000 x 1000 kilojoules/sec, or 3000/1.055 x 1000 BTU/sec. this reduces to 2.84 x 106 BTU/second, Scale it according to the actual electrical output of the plant.
A house does not use volts in a day but rather consumes energy measured in kilowatt-hours (kWh). The average household in the US uses about 30 kWh per day. Volts measure electrical potential, which determines the flow of electricity, while watt-hours measure the total energy consumed over a period of time.
Your bill will vary to your use, of course, but roughly, the base bill is $7.00. The first 500kWh are .05 cents each. The next 3000 kWh are about .08 cents each, and 3,501 kWh and above are about .09 cents each.