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g(t)=constant current source VL(t)=inductance voltage     H(s)=VL(s)/Ig(s)   Which of the following is the transfer function?

g(t)=constant current source VL(t)=inductance voltage     H(s)=VL(s)/Ig(s)   Which of the following is the transfer function?

Introductory Circuit Analysis (13th Edition)
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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ig(t)=constant current source

VL(t)=inductance voltage

    H(s)=VL(s)/Ig(s)

 

Which of the following is the transfer function?

 

625.104 s + 625.108 а) H(s) %3D s² + 10ª s + 625.105 s² + 10* s b) H(s) = s² + 104 s + 625.105 c) H(s) = 625.10* s s? + 104 s + 625.105 625.105 d) H(s) = s2 + 104 s + 625.105 625.108 e) H(s) = s2 + 104 s + 625.105 500 s² + 1125.10* s + 9375.107 f) H(s) = s² + 10ª s + 625.105
Transcribed Image Text:625.104 s + 625.108 а) H(s) %3D s² + 10ª s + 625.105 s² + 10* s b) H(s) = s² + 104 s + 625.105 c) H(s) = 625.10* s s? + 104 s + 625.105 625.105 d) H(s) = s2 + 104 s + 625.105 625.108 e) H(s) = s2 + 104 s + 625.105 500 s² + 1125.10* s + 9375.107 f) H(s) = s² + 10ª s + 625.105
500 N 1000 N 160 nF 100 mH R1 = 500 N, R2 = 1000 N, L = 100 mH,C = 160 nF,i,(t) = 4 cos 5000t mA
Transcribed Image Text:500 N 1000 N 160 nF 100 mH R1 = 500 N, R2 = 1000 N, L = 100 mH,C = 160 nF,i,(t) = 4 cos 5000t mA
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