Given the following circuit, where V = 12 volts, R =3200, C = 0.001 F, assuming that theswitch closes at t = 0,A) Find the value of the voltage across the capacitorat t = 0.5 andt = 0.propose values of R and C to achieve 98% of thesteady-state value of the capacitor voltage at1 second.Aditionally,FT=Vc(s)/V(s)RB) Find the value of the resistance voltage at t = 0.5and at t = 0. Explain in words the behavior of thecircuit according to the equations given obtained inthis exercise and in the previousFT=Vr(s)/V(s)

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Given the following circuit, where V = 12 volts, R = 3200, C = 0.001 F, assuming that the switch closes at t = 0, A) Find the value of the voltage across the capacitor at t = 0.5 and t = 0. Aditionally, propose values of R and C to achieve 98% of the steady-state value of the capacitor voltage at 1 second. %3D %3D FT=Vc(s)/V(s) R V B) Find the value of the resistance voltage at t = 0.5 and at t = o. Explain in words the behavior of the circuit according to the equations given obtained in this exercise and in the previous FT=Vr(s)/V(s)

Given the following circuit, where V = 12 volts, R = 3200, C = 0.001 F, assuming that the switch closes at t = 0, A) Find the value of the voltage across the capacitor at t = 0.5 and t = 0. Aditionally, propose values of R and C to achieve 98% of the steady-state value of the capacitor voltage at 1 second. %3D %3D FT=Vc(s)/V(s) R V B) Find the value of the resistance voltage at t = 0.5 and at t = o. Explain in words the behavior of the circuit according to the equations given obtained in this exercise and in the previous FT=Vr(s)/V(s)

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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