Watts = Amps * Volts
Watts = 20 amps * 100 Volts
Watts = 2000
2,000 Watts or 2k Watts
Watts = Amps * Volts Watts = 20 amps * 100 Volts Watts = 2000 2,000 Watts or 2k Watts
The answer is D. Why is it 1000W? How did you get that answer?
The alternator.
The alternator doesn't care. It provides power no matter if the battery is good, weak, or not even there.
IP belongs to the Network layer of the OSI Model and provides information about how and where data should be delivered.
The alternator provides DC power for all the electronics and the engine. It also keeps the battery fully charged.
An "electric scale" provides a weight and printout for commercial weighing applications.
An alternator provides electrical power to your automobile when it is running. It recharges the battery, which allows the engine to be turned on. It also provides electricity to run all the electronic features of your car.
The importance of the electric motors is that it provides a motor which can be operated without volatile fuels or harmful exhaust. It provides consistent power which can be operated in nearly any environment.
Yes, but the energy to do it is not free - your gas mileage goes down, etc. Since your car already has an alternator that provides the electric power during operation and recharges the battery (at any speed), I think this is a problem you don't need to fix.
Electric flux provides that basis.
The electricity source in a circuit is generally provided by a power source which can either be a battery or an alternator.