The output of a fossil fuel power station can vary significantly depending on its size and design, but typical capacities range from about 100 megawatts (MW) to over 1,500 MW. Large, modern fossil fuel power plants, such as natural gas combined-cycle plants, can achieve outputs exceeding 2,000 MW. Overall, the exact wattage depends on factors like the type of fuel used and the technology employed in the power station.
A typical nuclear power station can produce anywhere from 500 to 1,500 megawatts of power, depending on its size and capacity.
3,50,000 watts
The power output of a dynamo can vary depending on its size, design, and efficiency. Generally, dynamos used in bicycles can produce anywhere from 3 to 15 watts of power. Larger industrial dynamos can generate thousands of watts or even megawatts of power.
The unit of power is expressed in watts, and the product of current (Amps) and voltage (volts) is power there fore if you multiply the amps and the volts give watts. so 20 x 240 will give you a 4800 watts of power.
A lightning bolt can produce up to 1 billion watts of power.
Watts Station was created in 1904.
Most power plants produce several Megawatts of power. A Megawatt is one million watts.
The frequency on the radio dial doesn't tell us the power the station is using to transmit. There may be an AM radio station at any spot on the dial that is transmitting at any power level between, maybe, 10 watts and 50,000 watts. That decision is made when the radio station applies for its license, and the license to operate is granted.
There are 745.699872 watts per horsepower so slightly less than 2 hp
A station service is defined by power in watts and wavelength or frequency as to where it can be heard. The services could be AM or FM. Various shows are available
A light bulb with a power consumption of 150 watts typically produces around 2600 to 3000 lumens.
It depends entirely on the power factor of the load. If the power factor is unity (1), then the true power, in watts, will equal the apparent power in volt amperes. If the power factor is zero, then the true power, in watts, will be zero. This is because true power (watts) is equal to the apparent power (volt amperes) multiplied by the power factor.