An abc-phase-sequence three-phase balanced wye-connected source supplies a balanced delta-connected load. The impedance per phase in the delta load is 12 + j9 02. The line voltage at the source is 159.22+j 1336 Vrms if the line impedance is zero, find the Phase angle of the c-phase linecurrent. Z = 0c = The magnitude of the complex power (apparent power) supplied by a three-phase balanced wye-wye system is 3600 VA. The phase voltage is 120 Vrms. If the line impedance is negligible and the power factor angle of the load is 25°, determine the per phase load impedance. degree +j Ω

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Author:Robert L. Boylestad
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An abc-phase-sequence three-phase balanced wye-connected source supplies a balanced delta-connected load. The
impedance per phase in the delta load is 12 + j9 02. The line voltage at the source is 159.22+j 133.6 Vrms. If the line
impedance is zero, find the Phase angle of the c-phase linecurrent.
Z =
0c =
The magnitude of the complex power (apparent power) supplied by a three-phase balanced wye-wye system is 3600 VA. The
phase voltage is 120 Vrms. If the line impedance is negligible and the power factor angle of the load is 25°, determine the per
phase load impedance.
degree
+J
Ω
Transcribed Image Text:An abc-phase-sequence three-phase balanced wye-connected source supplies a balanced delta-connected load. The impedance per phase in the delta load is 12 + j9 02. The line voltage at the source is 159.22+j 133.6 Vrms. If the line impedance is zero, find the Phase angle of the c-phase linecurrent. Z = 0c = The magnitude of the complex power (apparent power) supplied by a three-phase balanced wye-wye system is 3600 VA. The phase voltage is 120 Vrms. If the line impedance is negligible and the power factor angle of the load is 25°, determine the per phase load impedance. degree +J Ω
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