C. Refer to Figure 3. The source voltage is Van​=6000∠0 V (positive sequence). The impedance of the feeder, Zf​, has a m

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answerhappygod
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C. Refer to Figure 3. The source voltage is Van​=6000∠0 V (positive sequence). The impedance of the feeder, Zf​, has a m

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C Refer To Figure 3 The Source Voltage Is Van 6000 0 V Positive Sequence The Impedance Of The Feeder Zf Has A M 1
C Refer To Figure 3 The Source Voltage Is Van 6000 0 V Positive Sequence The Impedance Of The Feeder Zf Has A M 1 (27.63 KiB) Viewed 30 times
C Refer To Figure 3 The Source Voltage Is Van 6000 0 V Positive Sequence The Impedance Of The Feeder Zf Has A M 2
C Refer To Figure 3 The Source Voltage Is Van 6000 0 V Positive Sequence The Impedance Of The Feeder Zf Has A M 2 (17.81 KiB) Viewed 30 times
C. Refer to Figure 3. The source voltage is Van​=6000∠0 V (positive sequence). The impedance of the feeder, Zf​, has a magnitude of 0.9 ohms with an X/R ratio of 3 per phase. The load impedance is ZL​=12+j9Ω per phase. 13. Determine the feeder current IaA​. 14. Determine the load line voltage VAB​. 15. Determine the load phase current ICA​. 16. Determine the total three-phase complex power absorbed by the load. 17. Determine the efficiency of the system (η= Active power absorbed by the load ⟩ Active power delivered by the source).
Figure 3.)
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