If the input to the RLC circuit shown on the right is v₂(t) = u(t). a. Find the output voltage transform across each element. b. Compare the three outputs with regard to Vs(s) their respective poles and zeros. c. Use the initial- and final-value theorems to determine the value of the voltage across each element at t = 0 and t = . What conclusions can one draw regarding the results? VR(S) + Ls VL(S) 1/Cs + Vc(s) VLC(s)

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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If the input to the RLC circuit shown on the right
is v₂ (t) = u(t).
a. Find the output voltage transform across
each element.
b. Compare the three outputs with regard to Vs(s)
their respective poles and zeros.
c. Use the initial- and final-value theorems to
determine the value of the voltage across
each element at t = 0 and t = ∞. What
conclusions can one draw regarding the results?
RVR(S)
+
Ls VL(S)
1/Cs
HH
+
Vc(s)
VLC(S)
Transcribed Image Text:If the input to the RLC circuit shown on the right is v₂ (t) = u(t). a. Find the output voltage transform across each element. b. Compare the three outputs with regard to Vs(s) their respective poles and zeros. c. Use the initial- and final-value theorems to determine the value of the voltage across each element at t = 0 and t = ∞. What conclusions can one draw regarding the results? RVR(S) + Ls VL(S) 1/Cs HH + Vc(s) VLC(S)
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