c. Now suppose we replace the 5 volt source in our circuit with the squarewave of magnitude 5 volts (i.e. 10 volts peak-to-peak). What frequency should we make it so that we observe the capacitor charge up to +5 volts for 7 time-constants, and then charge down to -5 volts for 7 time-constants?

c. Now suppose we replace the 5 volt source in our circuit with the squarewave of magnitude 5 volts (i.e. 10 volts peak-to-peak). What frequency should we make it so that we observe the capacitor charge up to +5 volts for 7 time-constants, and then charge down to -5 volts for 7 time-constants?

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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Question

c. Now suppose we replace the 5 volt source in our circuit with the squarewave of
magnitude 5 volts (i.e. 10 volts peak-to-peak). What frequency should we make it so
that we observe the capacitor charge up to +5 volts for 7 time-constants, and then
charge down to -5 volts for 7 time-constants?

2. Given:
レ
clee
Vinlt) =
Velt)
a. Verify that the differential equation for v (t) is
1
v" +-v +
L
R
LC
LC
b. Find v. (t) when R=3002 L=100mH C = 0.1µF
330
%3D

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