Hooking a 24V motor to a 110V source is a certain way of destroying the motor. It'll pull as many amps through its poor circuitry as the source can deliver until either the source's fuse or the motor blows.
For a motor's output power to equal its input power, the motor's efficiency must be 100%. As no machine, particularly a rotating machine, can possibly achieve 100% efficiency, there is no condition under which its output power can ever match its input power.
At least 25 Kw and I don't think its practical to build such a large inverter I'd rather fit a autostart diesel or petrol engine to the compressor
If I'm understanding the question, you are proposing using one motor and one generator, and have the motor spin the generator up to speed, and have the generator attempt to supply power to the motor. The answer is yes, you can do this, but you will be losing energy, not gaining it. The motor and generator's efficiencies are less than 100%, so once you remove the outside source they will slow down until they come to a complete stope, without any other load connected other than themselves.
the excitation voltage applied the power input to the prime mover
Synchronous motors have unmeasureable slip because they stay in sync with the input line frequency.
The monitor is an output device......
Output. An actuator is a little motor that moves when it receives an input.
The monitor is an output device......
The input force of a sewing machine is the torque from the motor.
Yes a trained motor technician can determine the lead configuration using an ohm meter of a true dual voltage motor with no connection board. It is a matter of correctly connecting the windings externally from series to parallel.
dendrites
Then the motor will act as generator by principle
You can calculate the quantity of energy that a motor turns into heat with either one of these equations: Heat energy = ( 1 - efficiency of the motor) x (energy input to the motor) or Heat energy = ( 1 - efficiency of the motor) x (power input to the motor) x (running time)
ratio of energy output to energy input.
touch
For a motor's output power to equal its input power, the motor's efficiency must be 100%. As no machine, particularly a rotating machine, can possibly achieve 100% efficiency, there is no condition under which its output power can ever match its input power.
such a motor would be theoretically 82.8888% efficient