9. Assume the LC circuit below. The initial voltage stored across the capacitor is V. When the switch closes at t = 0, the current flows from the capacitor into the inductor and back into the capacitor. Assuming the stored current in the inductor is 0 A, find the current through the circuit, I(t), the voltage across the inductor, VouT(t). Plot I(t) and VouT(t) as a function of time. V + 1(t) VOUT(t)
9. Assume the LC circuit below. The initial voltage stored across the capacitor is V. When the switch closes at t = 0, the current flows from the capacitor into the inductor and back into the capacitor. Assuming the stored current in the inductor is 0 A, find the current through the circuit, I(t), the voltage across the inductor, VouT(t). Plot I(t) and VouT(t) as a function of time. V + 1(t) VOUT(t)
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:9. Assume the LC circuit below. The initial voltage stored across the capacitor is V. When
the switch closes at t = 0, the current flows from the capacitor into the inductor and back
into the capacitor. Assuming the stored current in the inductor is 0 A, find the current
through the circuit, I(t), the voltage across the inductor, Vour(t). Plot I(t) and Vour(t) as
a function of time.
V
+
1(t)
VOUT(t)
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