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8. a) The frequency of the source voltage in the following circuit is adjusted until ig is in phase with vg. What is the value of angular frequency o in radians per second? b) If vg = 20 cos at V (where @ is the angular frequency found in [a]), what is the steady-state expression for vo?

8. a) The frequency of the source voltage in the following circuit is adjusted until ig is in phase with vg. What is the value of angular frequency o in radians per second? b) If vg = 20 cos at V (where @ is the angular frequency found in [a]), what is the steady-state expression for vo?

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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8. a) The frequency of the source voltage in the following circuit is adjusted until ig is in phase with vg. What is the value of angular frequency o in radians per second? b) If vg = 20 cos at V (where is the angular frequency found in [a]), what is the steady-state expression for vo? Vg 500 Ω ww 1 μF HE + 500 mH , { 1 kN
Transcribed Image Text:8. a) The frequency of the source voltage in the following circuit is adjusted until ig is in phase with vg. What is the value of angular frequency o in radians per second? b) If vg = 20 cos at V (where is the angular frequency found in [a]), what is the steady-state expression for vo? Vg 500 Ω ww 1 μF HE + 500 mH , { 1 kN
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is this correct? since the imaginary part is zero 

5004j 0S-300 ×10 jsoow? Sous + 1 - 54101 soow²+5x105 -10° 1 of ฯ = ( 2000
Transcribed Image Text:5004j 0S-300 ×10 jsoow? Sous + 1 - 54101 soow²+5x105 -10° 1 of ฯ = ( 2000
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Can I not do it this way?

U 5000 1000+ј 500 ј хоб 3
Transcribed Image Text:U 5000 1000+ј 500 ј хоб 3
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