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1. Show that the transfer function H(f) for the RL circuit shown below is given by H(f) = 1+1/ where fB +Vin - R 2πL ell L Vout R 2. For the circuit above: a. Derive the expression for the magnitude of H(f)|aB. b. What are the asymptotes for |H(f)|ag as approaches zero and infinity? fB f c. Plot H(f) dB VS. on a BODE plot. fB d. Explain the behavior of this circuit using physical principles.

1. Show that the transfer function H(f) for the RL circuit shown below is given by H(f) = 1+1/ where fB +Vin - R 2πL ell L Vout R 2. For the circuit above: a. Derive the expression for the magnitude of H(f)|aB. b. What are the asymptotes for |H(f)|ag as approaches zero and infinity? fB f c. Plot H(f) dB VS. on a BODE plot. fB d. Explain the behavior of this circuit using physical principles.

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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Answer question 2. Thank you
1. Show that the transfer function H(f) for the RL circuit shown below is given by H(f): where fB Vin = R 2πL ell L Vout R 2. For the circuit above: Derive the expressio for the magnitu of H(f) dB. b. What are the asymptotes for |H(f)|aB as approaches zero and infinity? fB c. Plot |H(f)|aB vs. on a BODE plot. fB d. Explain the behavior of this circuit using physical principles. = 1+j/B
Transcribed Image Text:1. Show that the transfer function H(f) for the RL circuit shown below is given by H(f): where fB Vin = R 2πL ell L Vout R 2. For the circuit above: Derive the expressio for the magnitu of H(f) dB. b. What are the asymptotes for |H(f)|aB as approaches zero and infinity? fB c. Plot |H(f)|aB vs. on a BODE plot. fB d. Explain the behavior of this circuit using physical principles. = 1+j/B
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