For the circuit shown below, determine: a) Amplitude of the Voltage Source b) RMS value of the Voltage Source c) Frequency of the Voltage Source d) Phase Angle of the Voltage Source e) Total Resistance f) Total Inductance g) Total Capacitance h) Inductive Reactance i) Capacitive Reactance j) Total Impedance in Polar Form k) Total Current in Polar Form I) Voltage across the Resistor m) Voltage across the Inductance n) Voltage across the Capacitor o) Draw all voltages and current on the Complex Plane e = √2(20) sin 3771 + R₁ = 6 R₂ = 40 L₁ = 0.05 H L₂ = 0.05 H www moo voo + UR ₁01) C₁ = 200 μF C₂ = 200 μF + UL HE + UC

For the circuit shown below, determine: a) Amplitude of the Voltage Source b) RMS value of the Voltage Source c) Frequency of the Voltage Source d) Phase Angle of the Voltage Source e) Total Resistance f) Total Inductance g) Total Capacitance h) Inductive Reactance i) Capacitive Reactance j) Total Impedance in Polar Form k) Total Current in Polar Form I) Voltage across the Resistor m) Voltage across the Inductance n) Voltage across the Capacitor o) Draw all voltages and current on the Complex Plane e = √2(20) sin 3771 + R₁ = 6 R₂ = 40 L₁ = 0.05 H L₂ = 0.05 H www moo voo + UR ₁01) C₁ = 200 μF C₂ = 200 μF + UL HE + UC

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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