3 Assume that the circuit shown in Figure P5.73 is underdamped and that the circuit initially has no energy stored. It has been observed that after the switch is closed at t = 0, the capacitor voltage reaches an initial peak value of 70 V when t = 57/3 µs and a second peak value of 53.2 V when t = 57 us, and it eventually approaches a steady-state value of 50 V. If C = 1.6 nF, what are the values of Rand L? t= 0 ww

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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3 Assume that the circuit shown in Figure P5.73 is
underdamped and that the circuit initially has no
energy stored. It has been observed that after the
switch is closed at t = 0, the capacitor voltage reaches
an initial peak value of 70 V when t = 57/3 µs and a
second peak value of 53.2 V when t = 57 us, and it
eventually approaches a steady-state value of 50 V. If
C = 1.6 nF, what are the values of Rand L?
t= 0
ww
Transcribed Image Text:3 Assume that the circuit shown in Figure P5.73 is underdamped and that the circuit initially has no energy stored. It has been observed that after the switch is closed at t = 0, the capacitor voltage reaches an initial peak value of 70 V when t = 57/3 µs and a second peak value of 53.2 V when t = 57 us, and it eventually approaches a steady-state value of 50 V. If C = 1.6 nF, what are the values of Rand L? t= 0 ww
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