4-pole DC in series motor, 180 Nm torque. The coil is wavy, at 600 total conductors, and the magnetic flux per electrode is 0.02 Weber. The resistance of the product and log windings is 0.2 ohm and 0.1 ohm, respectively. Calculate the copper knob if the reciprocating force generated is 205 volts

4-pole DC in series motor, 180 Nm torque. The coil is wavy, at 600 total conductors, and the magnetic flux per electrode is 0.02 Weber. The resistance of the product and log windings is 0.2 ohm and 0.1 ohm, respectively. Calculate the copper knob if the reciprocating force generated is 205 volts

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter32: Three-phase Motors

Section: Chapter Questions

Problem 8RQ

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Concept explainers

Single Phase Induction Motor

The single-phase induction motor or engine consists of a single rotating phase in the stator and a rotating cage in the rotor. When phase one supply is connected to the stator winding, a magnetic field is generated. In the pulsating field, the rotor does not rotate due to inertia. So, a single-phase import motor does not start and requires some initial methods.

Question

4-pole DC in series motor, 180 Nm
torque. The coil is wavy, at 600 total
conductors, and the magnetic flux
per electrode is 0.02 Weber. The
resistance of the product and log
windings is 0.2 ohm and 0.1 ohm,
respectively. Calculate the copper
knob if the reciprocating force
generated is 205 volts

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