This is very dependent on the society concerned, but I guess you mean in a developed industrial society such as the US or Europe, and again whether you mean average or maximum demand per house.
Making it simple, the average demand per house is about 2 Kw, so 1 Mw will supply 500 houses. However if all those houses were cooking their Christmas (or Thanksgiving) turkeys at the same time, this could easily rise to 5 Kw per house, and more if electric heating is in use. Spare a thought for the power station staff keeping it all going!
It's really subjective. I've heard a lot of figures used. Are you talking about homes? are you talking about "people", including their jobs (industrial, farming, etc.)? What part of the world are you in - is the climate hot, cold (this impacts heating and air conditioning loads), or is it just nice all year round?
I've heard a rough figure of 1kW per household, but when wind farms are announced I've calculated their figure to .5kW per house as well, so there seems to be a lot of leeway.
1kW = 10 100W lights running, to put this in perspective. I've measured my George Forman grill at ~1kW (but it's only on a few minutes), Hair dryers and small space heaters can quickly get your house usage above 1kW for a period of time. But that doesn't mean all your neighbors are using similar appliances at the same time (but then again, maybe they are). So time of day may impact how much 1 megawatt will power - at 12PM, it might power 10,000 homes, but only power 500 at 6PM when everyone is making dinner, running laundry, and running the air conditioning/heating.
Farmers that irrigate, and use electricity to run their pumps can be significant load. Industrial plants can also pull a lot of juice, such as arc furnaces used for smelting. I know of some such plants around 100MW, which employ around 500 people per plant, so if you include jobs this is 1MW per 5 people employed.
10000
1000. A megawatt-hour is the energy you'd get with a megawatt of power for 1 hour. Energy = power * time. It's important to note that it's 'megawatt hour' and not megawatt/hour (ie. it's not megawatt per hour).A gigawatt has 1000 times the power of a megawatt. Thus, since the time is the same (both 1 hour), a gigawatt-hour = 1000 megawatt hours.
A typical nuclear power plant produces 500 to 5000 megawatts of power. If we take 2000 as average, an average plant produces 2000 megawatt hours in an hour, or 48,000 megawatt hours in a day. But please note: Technically, this does not answer the question asked, because the question asked for megawatts, not megawatt hours. The question as asked is like asking how many horsepower a car can produce in a day. The measure of electrical output over a period of time is a watt hour, or, in this case, the megawatt hour. So the question answered was, "How many megawatt hours does a nuclear power plant make in a day?"
There are 1,000 kilowatts in a single megawatt. These are measures of electrical power which are based on the metric system.
One megawatt is equal to 1,340 horsepower.
A megawatt is one million watts. One watt is a unit of electrical power.
Gallons are a measure of volume. Megawatt is a measure of power. The two are not automatically convertible without some other rate.
10000
1000. A megawatt-hour is the energy you'd get with a megawatt of power for 1 hour. Energy = power * time. It's important to note that it's 'megawatt hour' and not megawatt/hour (ie. it's not megawatt per hour).A gigawatt has 1000 times the power of a megawatt. Thus, since the time is the same (both 1 hour), a gigawatt-hour = 1000 megawatt hours.
1 MW is 106 watts.
One
A typical nuclear power plant produces 500 to 5000 megawatts of power. If we take 2000 as average, an average plant produces 2000 megawatt hours in an hour, or 48,000 megawatt hours in a day. But please note: Technically, this does not answer the question asked, because the question asked for megawatts, not megawatt hours. The question as asked is like asking how many horsepower a car can produce in a day. The measure of electrical output over a period of time is a watt hour, or, in this case, the megawatt hour. So the question answered was, "How many megawatt hours does a nuclear power plant make in a day?"
Most power plants produce several Megawatts of power. A Megawatt is one million watts.
None. First, a megawatt is a megawatt - whether it is nuclear or not. Second, a megawatt is a measure of power while a minute is either a measure of time or of angular displacement. In either case, a watt and a minute measure two different things and, according to the basic rules of dimensional analysis, conversion from one to the other is not valid.
There are 1,000 kilowatts in a single megawatt. These are measures of electrical power which are based on the metric system.
1 megawatt = 1,000 kilowatts0.5 megawatt = 500 kilowatts
8,000 since 8000*1000(kilo)=8,000,000 (mega)