A4-pole series motor has 944 wave-connected armature conductors. the flux per pole is 34.6 m Wb and the total torque developed is 209 N-m. applied voltage of 500V,Total motor resistance is 3 ohm. Calculate 1-The line current taken by the motor.2-The speed at which it will run, 3-The total copper losses, 4- The input power.?
A4-pole series motor has 944 wave-connected armature conductors. the flux per pole is 34.6 m Wb and the total torque developed is 209 N-m. applied voltage of 500V,Total motor resistance is 3 ohm. Calculate 1-The line current taken by the motor.2-The speed at which it will run, 3-The total copper losses, 4- The input power.?
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter33: Single-phase Motors
Section: Chapter Questions
Problem 32RQ
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![A4-pole series motor has 944
wave-connected
armature conductors. the flux per pole is 34.6 m
Wb and the total torque developed is 209 N-m.
applied voltage of 500V,Total motor resistance
is 3 ohm. Calculate 1-The line current taken by
the motor.2-The speed at which it will run, 3-The
total copper losses, 4- The input power.?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3b94200e-b889-4a82-a130-38a076e2a536%2F2b60ece2-5e28-483a-b1fd-1da9f9bd0aaf%2Fbb60pqi_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A4-pole series motor has 944
wave-connected
armature conductors. the flux per pole is 34.6 m
Wb and the total torque developed is 209 N-m.
applied voltage of 500V,Total motor resistance
is 3 ohm. Calculate 1-The line current taken by
the motor.2-The speed at which it will run, 3-The
total copper losses, 4- The input power.?
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