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3) total Armature Winding resistance and shunt area winding resistance of a self-excitation DC shunt motor 0.22 Ω and 170Ω respectively. Motor armature coefficient Ka = 40. DC shunt motor, a mechanical load it operates at 230V for feeding and is powered by a full load current of 40A. Flux per pole the value is known to be 50mWb. Brush-contact voltage drop is 2V. Core losses and the total loss of Rotary parts is 450W. Answer the following. (d) input power, copper losses, brush-contact losses and total loss power values in the engine calculate

3) total Armature Winding resistance and shunt area winding resistance of a self-excitation DC shunt motor 0.22 Ω and 170Ω respectively. Motor armature coefficient Ka = 40. DC shunt motor, a mechanical load it operates at 230V for feeding and is powered by a full load current of 40A. Flux per pole the value is known to be 50mWb. Brush-contact voltage drop is 2V. Core losses and the total loss of Rotary parts is 450W. Answer the following. (d) input power, copper losses, brush-contact losses and total loss power values in the engine calculate

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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3) total Armature Winding resistance and shunt area winding resistance of a self-excitation DC shunt motor
0.22 Ω and 170Ω respectively. Motor armature coefficient Ka = 40. DC shunt motor, a mechanical load
it operates at 230V for feeding and is powered by a full load current of 40A. Flux per pole
the value is known to be 50mWb. Brush-contact voltage drop is 2V. Core losses and
the total loss of Rotary parts is 450W. Answer the following.

(d) input power, copper losses, brush-contact losses and total loss power values in the engine
calculate.

(e) calculate the efficiency of the engine.

(Understand the formulas you use for calculations, the names of the relevant parameters, and your processing stages
write it down somehow.)

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