The power supplied to a three-phase induction motor is 32 kW and the stator losses are 1200 Watt. If the slip is 5 percent. determine the rotor copper loss

Find the output power of the motor if friction and windage losses are 175 Watts

A 3 phase, 400-V, 50 Hz 4 pole induction motor is fed from a 3-phase supply and runs of 1425 rpm. The frequency of the rotor emf is

The rotor current in a 3-phase induction motor is ________ slip.

A three-phase, four-pole, 50 Hz induction motor rotates at a full-load speed of 1470 rpm. The EMF measured between the slip-ring terminals when the rotor is not rotating is 200 V. The rotor windings are star connected and has resistance and stand-still reactance per phase of 0.1 Ω and 1.0 Ω. respectively. Then the rotor current on full load is

The starting torque of a 3-phase induction motor is _______________ supply voltage.

The starting torque of an induction motor is maximum when rotor resistance per phase is ____________ rotor reactance/phase.

The maximum torque of a 3-phase induction motor under running conditions is

The 3-phase induction motor is so designed that the rotor should have _____________ under running conditions.

If a 3-phase induction motor is running at slip s, then, rotor copper loss is equal to.