8. Correctly answer A through D based on Figure 2. A) What type of single phase motor is illustrated in Figure 2? a) resistance-start induction-run b) capacitor-start induction -run c) capacitor-start capacitor-run d) repulsion-start, induction-run B) Which winding is the "start" winding? a) the circuit with the capacitor in it b) the circuit without the capacitor in it c) either "a" or "b" d) impossible to determine C) Which winding circuit should have the larger amount of resistance? a) start b) run c) either "a" or "b" d) both the same D) What is the purpose of the capacitor in this circuit? a) correct the motor's power factor b) split the phasing of the applied voltage c) improve starting torque d) "b" and "c", not "a" E) If the capacitor were to be removed from the motor circuit and put into a test circuit, how much current should it draw from a 120 volt, 60 hertz supply if the capacitor were exactly 200 microfarads? a) 2.24 A b) 9.05 A c) 16.3 A d) none of the above
58. Correctly answer A through D based on Figure 2.
A) What type of single phase motor is illustrated in Figure 2?
a) resistance-start induction-run b) capacitor-start induction -run c) capacitor-start capacitor-run d) repulsion-start, induction-run
B) Which winding is the "start" winding?
a) the circuit with the capacitor in it b) the circuit without the capacitor in it c) either "a" or "b" d) impossible to determine
C) Which winding circuit should have the larger amount of resistance?
a) start b) run c) either "a" or "b" d) both the same
D) What is the purpose of the capacitor in this circuit?
a) correct the motor's power factor b) split the phasing of the applied voltage c) improve starting torque d) "b" and "c", not "a"
E) If the capacitor were to be removed from the motor circuit and put into a test circuit, how much current should it draw from a 120 volt, 60 hertz supply if the capacitor were exactly 200 microfarads?
a) 2.24 A b) 9.05 A c) 16.3 A d) none of the above
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