Figure 1 below illustrates a circuit represented in the frequency domain using phasors and impedances. The input to the AC circuit is a source voltage v,(t) with amplitude of 12 V , anglular frequency 10 rad/s, and phase angle of 0°. Thus the phasor corresponding to the given v,(t) is respectively described as V,(w) = 1220°. The impedances corresponding to each circuit element are: ZR, (w) = 40 , Zr,(w) = 160, Z1,(w) = j20 N, ZĻ̟(w) = j25 N, Zc(w) = -j14N 40 j20 N -j14 0 1220°( (@) 160 j25 N
Figure 1 below illustrates a circuit represented in the frequency domain using phasors and impedances. The input to the AC circuit is a source voltage v,(t) with amplitude of 12 V , anglular frequency 10 rad/s, and phase angle of 0°. Thus the phasor corresponding to the given v,(t) is respectively described as V,(w) = 1220°. The impedances corresponding to each circuit element are: ZR, (w) = 40 , Zr,(w) = 160, Z1,(w) = j20 N, ZĻ̟(w) = j25 N, Zc(w) = -j14N 40 j20 N -j14 0 1220°( (@) 160 j25 N
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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Find the voltage drop across the inductor ????1(??) and capacitor ????(??). Write your answers in
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Transcribed Image Text:Figure 1 below illustrates a circuit represented in the frequency domain using phasors and impedances.
The input to the AC circuit is a source voltage v, (t) with amplitude of 12 V , anglular frequency
10 rad/s, and phase angle of 0°. Thus the phasor corresponding to the given v,(t) is respectively
described as V,(w) = 1220°. The impedances corresponding to each circuit element are:
ZR, (w) = 40 , ZR,(@) = 160, Z1, (@) = j20 N, Z̟(w) = j25 N, Zc(w) = -j14 N
j20 N
-j14 N
1220°(+) 1(@)
160
j25 N
Figure 1
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