320 V + t=0 = 350 μF V Given: The capacitors have initial voltages as shown in the above circuit. At t = 0, the switch is closed. Required: Calculate the final voltage, V₁0, across the capacitor on the left, the final voltage, V200, across the capacitor, on the right, and the energy dissipated in the resistor, i.e., WR, by the time the system has reached equilibrium. Solution: V100 = V200 = WR V 30 Ω J A 08 175 µF
320 V + t=0 = 350 μF V Given: The capacitors have initial voltages as shown in the above circuit. At t = 0, the switch is closed. Required: Calculate the final voltage, V₁0, across the capacitor on the left, the final voltage, V200, across the capacitor, on the right, and the energy dissipated in the resistor, i.e., WR, by the time the system has reached equilibrium. Solution: V100 = V200 = WR V 30 Ω J A 08 175 µF
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:.320 V +
t=0
V1∞ =
V200
WR=
350 με
V
30 Ω
ww
Given: The capacitors have initial voltages as shown in the above circuit. At t = 0, the switch is closed.
Required: Calculate the final voltage, V₁∞, across the capacitor on the left, the final voltage, V₂∞, across the capacitor, on the right, and the energy
dissipated in the resistor, i.e., WŔ, by the time the system has reached equilibrium.
Solution:
V
- 80 V +
175 μF
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