8. For the circuit shown below, is (t) = 10.0 cos(200лt) A, R = 100 22, and C= 100 µF. (Use rms phasors.) a. Compute the impedance of the capacitor. (Ze= -j15.92 ) b. Convert the current source to its phasor form. (I, = 7.071/0° A) c. Compute the phasor current through the 100 resistor. (ÎR = 1.11/-80.95° A) d. Convert the phasor current to its time function, iR (t). (ir(t) = 1.572 cos(200nt — 80.95()) A) ir(t) i (1) (1 R

8. For the circuit shown below, is (t) = 10.0 cos(200лt) A, R = 100 22, and C= 100 µF. (Use rms phasors.) a. Compute the impedance of the capacitor. (Ze= -j15.92 ) b. Convert the current source to its phasor form. (I, = 7.071/0° A) c. Compute the phasor current through the 100 resistor. (ÎR = 1.11/-80.95° A) d. Convert the phasor current to its time function, iR (t). (ir(t) = 1.572 cos(200nt — 80.95()) A) ir(t) i (1) (1 R

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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