This is a part of a review I'm studying, NOT a graded assignment, please do not reject. Thank you! Circuit analysis using phasor/impedance, complex power calculation: A three-phase RLC circuitis shown below. The reactance of the capacitor is 40 Ohm. The reactance of the inductor is 80 Ohm, and theresistor is 8 Ohm. The sending end voltage is v₁ (t) = √2³45 cos(wt + 7) kV, where w = 2 · 60 rad/s. Thereceiving end voltage is v2(t) = √√2³45 cos(wt) kV. The power base is 1000 MVA and the voltage base (L-L) is345 kV.• Please compute total transferred complex power S₁ and S₂ in the physical unit.• Please draw a per-phase phasor/impedance diagram using per unit values.• Please compute the per unit complex power S₁ and S₂.Si→>>>777RL CmmmllFigureVr

The source side voltage is kV.In polarform kV.The load side voltage is kV.In polar form kV.Base…

Circuit analysis using phasor/impedance, complex power calculation: A three-phase RLC circuit is shown below. The reactance of the capacitor is 40 Ohm. The reactance of the inductor is 80 Ohm, and the resistor is 8 Ohm. The sending end voltage is v₁(t) = √2³45 cos(wt + 7) kV, where w = 2π-60 rad/s. The receiving end voltage is v2(t) = √2³45 cos(wt) kV. The power base is 1000 MVA and the voltage base (L-L) is 345 kV. . Please compute total transferred complex power and S₂ in the physical unit. • Please draw a per-phase phasor/impedance diagram using per unit values. • Please compute the per unit complex power S₁ and S₂. RL C mm F Figure ->> Vr

Circuit analysis using phasor/impedance, complex power calculation: A three-phase RLC circuit is shown below. The reactance of the capacitor is 40 Ohm. The reactance of the inductor is 80 Ohm, and the resistor is 8 Ohm. The sending end voltage is v₁(t) = √2³45 cos(wt + 7) kV, where w = 2π-60 rad/s. The receiving end voltage is v2(t) = √2³45 cos(wt) kV. The power base is 1000 MVA and the voltage base (L-L) is 345 kV. . Please compute total transferred complex power and S₂ in the physical unit. • Please draw a per-phase phasor/impedance diagram using per unit values. • Please compute the per unit complex power S₁ and S₂. RL C mm F Figure ->> Vr

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.7P: Let a 100V sinusoidal source be connected to a series combination of a 3 resistor, an 8 inductor,...

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