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A shunt-wound DC motor with the field coils and rotor connected in parallel (Figure 1) operates...

A shunt-wound DC motor with the field coils and rotor connected in parallel (Figure 1) operates from a 135 VDC power line. The resistance of the field windings, Rf, is 247 Ω . The resistance of the rotor, Rr, is 5.90 Ω . When the motor is running, the rotor develops an emf E. The motor draws a current of 4.44 A from the line. Friction losses amount to 49.0 W .

Compute the emf E.

Compute the rate of development of thermal energy in the field windings.

Compute the rate Pth,rotor of development of thermal energy in the rotor.

Compute the power input to the motor Pin.

Compute the efficiency of the motor.

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