A 208-V Three-Phase Balanced Power System, Shown Below, Consists Of An Ideal 208-V Y-Connected Three-Phase Generator Connected Through A Three-Phase Transmission Line To A ∆-Connected Load

A 208-V Three-Phase Balanced Power System, Shown Below, Consists Of An Ideal 208-V Y-Connected Three-Phase Generator Connected Through A Three-Phase Transmission Line To A ∆-Connected Load. The Transmission Line Has An Impedance Of 0.06 + J0.12 Ω Per Phase, And The Load Has An Impedance Of 12 + J9 Ω Per Phase. For This Simple Power System Find The Magnitude

A 208-V three-phase balanced power system, shown below, consists of an ideal 208-V Y-connected three-phase
generator connected through a three-phase transmission line to a ∆-connected load. The transmission line has an impedance of 0.06 + j0.12 Ω per phase, and the load has an impedance of 12 + j9 Ω per phase. For this simple power system find the magnitude of the line current IL, the magnitude of the load's line and phase voltages VLL and Vphase, the real, reactive, and apparent powers consumed by the load, and the power factor of the load.0.06 Ω j0.12 Ω 11 0,06 Ω 0.12Ω z,-12 + j9Ω Vc 120L-2400 V VL-208 V Z, VB 1202- 120°V 0.06 Ω 0.12Ω

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