the voltage tolerance of a standard electric motor is
standard direction of rotation of an induction motor is counterclockwise when looking from the front end i.e. non-driving end of the motor.
The electric motor changes electric energy into mechanical energy.
No. Use standard utility AC, 3 PH voltage to feed a Variable Frequency Drive (VFD). The VFD is then wired to the motor. The output of the VFD varies average voltage and frequency in a semi-constant proportion to keep Volts/Hertz ratio the same to the motor. The operator can then adjust or select the desired speed from the VFD and the VFD will run the motor continuosly at that desired speed. If you were to control only voltage to the motor without adjusting frequency in proportion, the motor would burn up.
Electric shockArc flash (for higher voltage motors)Heavy things falling on feetSolvent exposure (cleaning solvents)Fire
In basic terms, it is the torque produced between the rotor conductors and the magnetic field, due to the currents flowing the the rotor conductors and the field windings that drives an electric motor. These currents, of course, are ultimately the result of the voltage(s) applied to those two circuits and the product of any voltage and in-phase component of any current determines the input power to the motor, while the load determines its output power. So, you could say that all these factors 'run' the motor!
.001" per 2" of diameter of face of coupling
a motor is a generator and a generator is a motor, if you are applying a voltage to turn the rotor its a motor and if you are turning the rotor and taking the voltage off the terminals its a generator or alternator.
36V to 72V
An electrical transformer can step up (or step down) the voltage.
Switching the field voltage to the coils forces the magnets to move.
Voltage is needed for both AC and DC motors.
First of all, what voltage are you going to use and second, what is the horsepower of the motor?
Need to know the voltage of the motor.
Motors overheat due to excessive current, not necessarily voltage. Normal voltage can cause a motor to overheat if it is stuck (not spinning). The problem is not usually the voltage, but whatever is causing excessive current flow (usually because the motor is not spinning like it is supposed to).
standard direction of rotation of an induction motor is counterclockwise when looking from the front end i.e. non-driving end of the motor.
Need to know the voltage for proper connection procedures.
Depends if its gas or electric, either way a larger motor, in electric you can up the voltage a little