Why would you want to know this?I dont know ask your mom or someone
A power generating capacity of 2.8 million kilowatts!
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.
1 MW = 10 to the power 6 Watts (in the new wiki answers type face).
A power plant's capacity is typically measured in megawatts (MW), which refers to the amount of electricity the plant can generate at a given moment. The specific capacity of a power plant can vary widely depending on the type of plant and its size. For example, a large coal or nuclear power plant may have a capacity of several hundred megawatts, while a smaller solar or wind farm may have a capacity of a few megawatts.
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.
1.2 million homes
The amount of megawatts produced by a biomass facility each year can vary depending on the size and efficiency of the plant. A typical biomass power plant can generate anywhere from 20 to 300 megawatts annually.
The time it takes to produce 500 megawatts of electricity depends on the power generation capacity of the plant. If the plant has a capacity of 100 megawatts, it would take 5 days to produce 500 megawatts.
1,000 Source: http://www.unitconversion.org/power/megawatts-to-kilowatts-conversion.html
To calculate the power needed to supply a city for 10 minutes, you would need to know the average power consumption of the city in megawatts. Once you have the average power consumption, you can multiply it by 10 minutes to determine the total energy required.
That depends entirely upon the size of the solar panel and how many cells it has. Panels can be small enough to fit on and power a pocket calculator, generating less than 1 volt, or they can be very large, such as those you might find on a residential rooftop for supplying 110 volt power for the home's needs. Or, they can be absolutely massive, generating megawatts of power, such as the ones used for commercial electricity generation and that compete with nuclear, fossil fuel, hydro, or wind generated electricity.