Find the equivalent impedance Zeq seen by the source when Vs = 6 cos (5t) v, C = 0.1 F, R = 1 § and L = 0.2 H.(Give angles in degrees and round final answers to two decimal places.)Calculate the voltage across each component - capacitor, resistor and inductor. (Give angles in degrees and round finalanswers to two decimal places.)VsRLellThe equivalent impedance seen by the source is 1±2% +j -1±2% 2 = 1.41 ± 2% at an angle of -45 ± 2% Q.The voltage across the capacitor is 8.49 ± 2% at an angle of -45 ± 2% v.The voltage across the resistor is 4.24 ± 2% at an angle of 45 ± 2% v.The voltage across the inductor is 4.24 ± 2% at an angle of 135 ± 2% v.

Answered: Image /qna-images/answer/148ea44f-8f09-40da-b45d-86934f8979de.jpg

Answered: Find the equivalent impedance Zeq seen…

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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Consider a drcuk where an ideal inductor L=D.144H is connected in parallel to a resistor R=1.00k. This combination is connected in series with a capacitor C=3.67e-07. This combination in connected to a power supply source of frequency f-3.4kHz. To study this circuit you need to drawa phasor diagram. Note the sum cf the current phasors through the resistor and the inductor must be equal to the phasor representing the current through the capacitor fie. the total current). You should draw the phasor for the current through the capadtor on the horizontal axis, since this is also the total ourrent delivered by the supply. The angie between this phasor and that of the power supply represents the phase angle o. Note that the voltage across the inductor equals the voltage aoross the resistor since they conmected parallel to esch other. Furthermore the sum of the phasors representing the currents through the inductor and the resistor equals the phasor representing the current through the…
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