1.A)B)B.1)Given: R120 k(ohms),R2= 40 k(ohms)C= 1 mFB.2)The figure blow is op-amp circuit:R₁wwB.3)w (rad/s)00.025B.4)G(s) =W(rad/s)00.025W (rad/s)00.02523Determine basic transfer functionFind frequency response of the system.Eg(s)Ę (s)W(rad/s)00.025www.1+eo(t)G(jw)Degree G(jw) (rad)G(jw) dbDegree G(jw)(deg)

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1. A) B) B.1) B.2) The figure blow is op-amp circuit: Given: R120 k(ohms), R2= 40 k(ohms) C= 1 mF i1 B.3) w (rad/s) 0 0.025 B.4) W(rad/s) 0 0.025 G(s) = R₁ W (rad/s) 0 0.025 é Determine basic transfer function Find frequency response of the system. Eg(s) Ę (s) W(rad/s) 0 0.025 23 www R₂ e(t) G(jw) Degree G(jw) (rad) G(jw) db Degree G(jw)(deg)

1. A) B) B.1) B.2) The figure blow is op-amp circuit: Given: R120 k(ohms), R2= 40 k(ohms) C= 1 mF i1 B.3) w (rad/s) 0 0.025 B.4) W(rad/s) 0 0.025 G(s) = R₁ W (rad/s) 0 0.025 é Determine basic transfer function Find frequency response of the system. Eg(s) Ę (s) W(rad/s) 0 0.025 23 www R₂ e(t) G(jw) Degree G(jw) (rad) G(jw) db Degree G(jw)(deg)

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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