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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Author:Robert L. Boylestad
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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
Transcribed Image Text: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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