In the circuit shown below, there is no initial energy stored in the capacitor or the inductor before the switch closes at t=0. a) Determine the current i, in the s-domain. b) Determine the current i in the time domain. c) Determine the voltage U, in the s-domain. Determine the voltage U, in the time domain. Using a spreadsheet or another program, plot the expression of i(t) from part (b). Using a spreadsheet or another program, plot the expression of Uo(t) from part (d). d) e) f) 80 mA t=0 i(t) 200 Ω 250 mH vo(t) 16 μF
In the circuit shown below, there is no initial energy stored in the capacitor or the inductor before the switch closes at t=0. a) Determine the current i, in the s-domain. b) Determine the current i in the time domain. c) Determine the voltage U, in the s-domain. Determine the voltage U, in the time domain. Using a spreadsheet or another program, plot the expression of i(t) from part (b). Using a spreadsheet or another program, plot the expression of Uo(t) from part (d). d) e) f) 80 mA t=0 i(t) 200 Ω 250 mH vo(t) 16 μF
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:In the circuit shown below, there is no initial energy stored in the capacitor or the inductor before the switch
closes at t=0.
a) Determine the current i, in the s-domain.
b) Determine the current i in the time domain.
c) Determine the voltage U, in the s-domain.
Determine the voltage U, in the time domain.
Using a spreadsheet or another program, plot the expression of i(t) from part (b).
Using a spreadsheet or another program, plot the expression of Uo(t) from part (d).
d)
e)
f)
80 mA
t=0
i(t)
200 Ω
250 mH
vo(t)
16 μF
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