Assuming the same voltage and power factor for the two motors. Watts = Volts x Amps x PF so the power of 1000 A motor is
Watts = 1000 x V x PF and the 750 A motor is Watts = 750 x V x PF.
So (Watts for 1000A) / (Watts for 750A) = 1.33
This means the 1000 A motor uses about 33% more electricity than the 750 A motor.
An electric motor, a solenoid, an electromagnet, an electric clock and much more!
very much :-)
Synchronous motors are much more efficient at converting electric power into motion. However, the speed of the motor is controlled by the frequency of the electric supply. So a synchronous motor ceiling fan would be much more efficient, but the speed of the fan would not be controllable, unless frequency controlled power supplies (inverter power) are used.
A lot!
The exact cost to replace an electric window motor varies slightly by the model of car. As of 2014, the average cost for this motor is between 35 and 55 dollars.
The amount of copper in a particular motor is not determined by horsepower only, there is no relationship between the total weight of MAGNET WIRE to the HORSEPOWER of an electric motor. Determining factors are the vintage, frame, make, speed, and frame designation.
A 100 horsepower electrical motor would consume 74,600 watts.
Hi, Figure 25-30% more than generator capacity. If you are trying to get more out than you put in, then the Laws of Physics preclude this. Peace, crigby
The short answer is - one horse power, or 746 watts. But machines do not have 100% conversion efficiency so the electric power taken by a motor is more than the mechanical power output. Electric motors are made more efficient at the higher powers, so while a 1 HP motor might have an efficiency of 80%, a 10 HP motor might have an efficiency of 90% and a 100 Hp motor 97%. This is a matter of design because the higher-power motor needs to waste less of the total power, so it is given thicker wire and a more massive magnetic core (proportional to power) than a small motor.
One of the greatest reasons to invest in electric vehicles is for their reliability. An electric vehicle has a motor that is much more reliable than a conventional car. There is a misconception that electric cars will simply die out on the road. This is a completely unfounded misconception. The truth is that electric cars can run for up to 600 miles without requiring a battery recharge or any gasoline.
most of the time your pedal position is linked into the motor controller which controlls how much current from the batteries makes it to the motor.
NO. Alternating current motors are terrible for go karts because the inverter required to power the motor under load is WAY more expensive than a more powerful Direct current motor. For example, 250watt A/C motor may only take 250watts to run, but under load it may require as much as 1000 watts or more to get you up to speed.