3) Given the circuit with an AC sinusoidal current source and an AC sinusoidal voltage source: ZR1 $60k0 <0 deg V₁" I₂" IR1 V1- Ic" VR2 VL™ Zc 85 kohms <-90 deg VIC ZR1 = 60 k < 0 degrees Zc = 85 k0 <-90 degrees ZR2= 20 k < 0 degrees Z₁ = 50 kn < 90 degrees w ZR2 20k0 <0 deg Isa 1.2 mA <0 deg 12- + Esb All sinusoidal complex phasor currents and voltages are peak phasors. Isa 1.2 mA <0 degrees represents a current source peak phasor Esb = 80 V < -150 degrees represents a voltage source peak phasor The current source and voltage source have angular velocity w 2000 rad/s At the previously stated angular velocity, the schematic shows the element complex impedances as follows: ZL 50 kohms < 90 deg 80 V<-150 deg Use the Superposition theorem and circuit analysis to find all of the circuit peak complex phasor voltages and currents requested below:

3) Given the circuit with an AC sinusoidal current source and an AC sinusoidal voltage source: ZR1 $60k0 <0 deg V₁" I₂" IR1 V1- Ic" VR2 VL™ Zc 85 kohms <-90 deg VIC ZR1 = 60 k < 0 degrees Zc = 85 k0 <-90 degrees ZR2= 20 k < 0 degrees Z₁ = 50 kn < 90 degrees w ZR2 20k0 <0 deg Isa 1.2 mA <0 deg 12- + Esb All sinusoidal complex phasor currents and voltages are peak phasors. Isa 1.2 mA <0 degrees represents a current source peak phasor Esb = 80 V < -150 degrees represents a voltage source peak phasor The current source and voltage source have angular velocity w 2000 rad/s At the previously stated angular velocity, the schematic shows the element complex impedances as follows: ZL 50 kohms < 90 deg 80 V<-150 deg Use the Superposition theorem and circuit analysis to find all of the circuit peak complex phasor voltages and currents requested below:

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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