None. There is no such thing as a 'kilowatt per hour'. If, on the other hand, you are asking how many 'kilowatt hours' a flatscreen television uses, simply look at its nameplate to find its power rating in kilowatts (more likely, it's in watts, so you need to divide by 1000), and multiply it by 1 to find the number of kilowatt hours consumed over a period of one hour.
The Battersea power stations A & B were both decommissioned with A being taken offline in 1975 and B taking offline in 1983. Therefore, the number of kilowatts an hour they produce is zero.
Cyclists in international touring races cover flat ground pacing themselves and jockying for position. In a situation like this where these athletes are just spinning and making the pavement go by underneath the wheels, ball park their energy output at about half a kilowatt. That's about 0.5 kilowatts (500 watts) of energy just rolling. Remember that there is a lot of variability in what these cyclists are doing -- or can do. Additionally, there will be times when they put out much more than that, like in a sprint or a shorter time trial. If a top cyclist is riding for an hour at a solid pace, he's put out a half a kilowatt hour of energy.
5.5 watts is 0.0055 kilowatts. in one hour the equipment uses 0.0055 kilowatt-hours.
1 watt is equal to 1/1000 kilowatts. To convert a value from watts to kilowatts just divide by 1000. To answer the question there is .001 kilowatts in one watt.
BTU and kilowatt-hours are measures of energy, while power is measured in either kilowatts or BTU per hour. 1 kilowatt-hour is equal to 3412 BTU, or 1 kilowatt equals 3412 BTU/hr. 8000 BTU per hour is equal to 2.344 kilowatts, which is 19.53 amps at 120 v.
The average energy consumption of a flat computer screen can be calculated by the following formula. Multiply 50 the number of hours of use time and divide it by 1000, that is how many kilowatts/ hour a flat computer screen uses energy.
2
5
Every hour a 1 Megawatt turbine would produce 1,000,000 watts. That would be the equivalent of 1,000 Kilowatts.
1.1 kW-hours
The Battersea power stations A & B were both decommissioned with A being taken offline in 1975 and B taking offline in 1983. Therefore, the number of kilowatts an hour they produce is zero.
To change kilowatts to watts multiply by 1000.2400 kilowatts=2400,000 watts or 2,400,000 watts.If you meant how many kilowatts in 2400 wattsthen this is 2.4 kilowatts
In Portland, Oregon, you can find a flat screen tv at many different places. However, if you purchase your flat screen at your local Wal-Mart, it will be inexpensive, and include delivery.
A 400-watt light uses energy at the rate of 0.4 kilowatt. In 1 hour, it uses 0.4 kilowatt-hour of energy.
I would say 2500 kilowatts.
Cyclists in international touring races cover flat ground pacing themselves and jockying for position. In a situation like this where these athletes are just spinning and making the pavement go by underneath the wheels, ball park their energy output at about half a kilowatt. That's about 0.5 kilowatts (500 watts) of energy just rolling. Remember that there is a lot of variability in what these cyclists are doing -- or can do. Additionally, there will be times when they put out much more than that, like in a sprint or a shorter time trial. If a top cyclist is riding for an hour at a solid pace, he's put out a half a kilowatt hour of energy.
0.04 kilowatts one kilowatt is 1000 watts