tor has lap-wound arn rotating at 100 slots 2 turms per col. 100rpm. Flux per pole is 100mWb. Armature resistance is 12 and field resistance is 902. Output mechanical power is 200W. Draw the circuit diagram and determine the efficiency of the motor. Ignore all friction and iron losses
tor has lap-wound arn rotating at 100 slots 2 turms per col. 100rpm. Flux per pole is 100mWb. Armature resistance is 12 and field resistance is 902. Output mechanical power is 200W. Draw the circuit diagram and determine the efficiency of the motor. Ignore all friction and iron losses
tor has lap-wound arn rotating at 100 slots 2 turms per col. 100rpm. Flux per pole is 100mWb. Armature resistance is 12 and field resistance is 902. Output mechanical power is 200W. Draw the circuit diagram and determine the efficiency of the motor. Ignore all friction and iron losses
A shunt motor has lap-wound armature with 100 slots with 2 turns per coil. It is rotating at 100rpm. Flux per pole is 100mWb. Armature resistance is 1Ω and field resistance is 90Ω. Output mechanical power is 200W. Draw the circuit diagram and determine the efficiency of the motor. Ignore all friction and iron losses
Transcribed Image Text:A shunt motor has lap-wound armature with 100 slots with 2 turns per coil. It is rotating at
100rpm. Flux per pole is 100mWb. Armature resistance is 12 and field resistance is 902. Output
mechanical power is 200W.
Draw the circuit diagram and determine the efficiency of the motor. Ignore all friction and iron
losses
Branch of science that deals with the stationary and moving bodies under the influence of forces.
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