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Refer to figure 3. When the switch is turned-off, capacitor C1 is charged to 5 volts and capacitor C2 is charged to 2 volts. At t = 0, the switch is turned-on. What is v1(t) at t ≥ 0? O v1(t) = 3.2 - 1.2 e^-(5t/6), V O v1(t) = 3.2 - 1.2 e^-(6t/5), V O v1(t) = 3.2 + 1.8 e^-(5t/6), V O v1(t) = 3.2 + 1.8 e^-(6t/5), V

Refer to figure 3. When the switch is turned-off, capacitor C1 is charged to 5 volts and capacitor C2 is charged to 2 volts. At t = 0, the switch is turned-on. What is v1(t) at t ≥ 0? O v1(t) = 3.2 - 1.2 e^-(5t/6), V O v1(t) = 3.2 - 1.2 e^-(6t/5), V O v1(t) = 3.2 + 1.8 e^-(5t/6), V O v1(t) = 3.2 + 1.8 e^-(6t/5), V

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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+ V1 C₁ 2F t=0 X _R = 12 Figure 3 3F ㅛ + V₂
Transcribed Image Text:+ V1 C₁ 2F t=0 X _R = 12 Figure 3 3F ㅛ + V₂
Refer to figure 3. When the switch is turned-off, capacitor C1 is charged to 5 volts and capacitor C2 is charged to 2 volts. At t = 0, the switch is turned-on. What is v1(t) at t ≥ 0? Ov1(t) = 3.2 - 1.2 e^-(5t/6), V O v1(t) = 3.2 - 1.2 e^-(6t/5). V Ov1(t) = 3.2 + 1.8 e^-(5t/6), V O v1(t) = 3.2 + 1.8 e^-(6t/5), V
Transcribed Image Text:Refer to figure 3. When the switch is turned-off, capacitor C1 is charged to 5 volts and capacitor C2 is charged to 2 volts. At t = 0, the switch is turned-on. What is v1(t) at t ≥ 0? Ov1(t) = 3.2 - 1.2 e^-(5t/6), V O v1(t) = 3.2 - 1.2 e^-(6t/5). V Ov1(t) = 3.2 + 1.8 e^-(5t/6), V O v1(t) = 3.2 + 1.8 e^-(6t/5), V
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