A 600V supply is coupled to a three- phase induction motor with a nominal rating of 100 horsepower (75 KW) and a synchronous speed of 1800 r/min. The ammeter revealed a line current of 78A, and the two-wattmeter approach showed a total power usage of 70kW. The rotor speed is 1763 revolutions per minute, according to accurate measurements. If the iron losses are 2 kW, and the windage and friction losses are 1.2 KW, (the resistance between the two terminals of the stator is 0.342) calculate: 2. Rotor cu losses * Your answer 3. Torque generated at 1763 revolutions per minute * Your answer 4. Efficiency * Your answer 1. The power supplied to the rotor * Your answer

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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A 600V supply is coupled to a three-
phase induction motor with a nominal
rating of 100 horsepower (75 KW) and a
synchronous speed of 1800 r/min. The
ammeter revealed a line current of 78A,
and the two-wattmeter approach
showed a total power usage of 70kW.
The rotor speed is 1763 revolutions per
minute, according to accurate
measurements. If the iron losses are 2
kW, and the windage and friction losses
are 1.2 KW, (the resistance between the
two terminals of the stator is 0.342)
calculate:
2. Rotor cu losses *
Your answer
3. Torque generated at 1763
revolutions per minute *
Your answer
4. Efficiency *
Your answer
1. The power supplied to the
rotor *
Your answer
Transcribed Image Text:A 600V supply is coupled to a three- phase induction motor with a nominal rating of 100 horsepower (75 KW) and a synchronous speed of 1800 r/min. The ammeter revealed a line current of 78A, and the two-wattmeter approach showed a total power usage of 70kW. The rotor speed is 1763 revolutions per minute, according to accurate measurements. If the iron losses are 2 kW, and the windage and friction losses are 1.2 KW, (the resistance between the two terminals of the stator is 0.342) calculate: 2. Rotor cu losses * Your answer 3. Torque generated at 1763 revolutions per minute * Your answer 4. Efficiency * Your answer 1. The power supplied to the rotor * Your answer
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