20 L + t = 0 60 V 31.25 µF vo350 mH R = 20 N, L = 50 mH, C = 31,25 µF Constant voltage source Vs(t) = 60 V Vc(t) iç(t) V,(t) = Vo(t) i,(t) = i, (t) VR(t) iR(t) i,(0) = 0 A voltage across capacitor 384.105 current through the capacitor a) Vc(s) V s (s² + 1600 s+ 64.104) Voltage from inductance Inductance current Voltage across the resistor 192.104 b) Vc(s) = V s (s² + 1600 s + 64.104) Current flowing through the resistor Inductance current at time t=0 60 s + 96000 c) Vc(s) = V s2 + 1600 s + 64.104 1200 s + 192.104 V s (s² + 1600 s + 64.104) d) Vc(s) = The switch is closed at time t=0 after being open for long enough. Which of the following is the Laplace transform of voltage Vc(t)? -1200 e) Vc(s) = V s² + 1600 s + 64.104

20 L + t = 0 60 V 31.25 µF vo350 mH R = 20 N, L = 50 mH, C = 31,25 µF Constant voltage source Vs(t) = 60 V Vc(t) iç(t) V,(t) = Vo(t) i,(t) = i, (t) VR(t) iR(t) i,(0) = 0 A voltage across capacitor 384.105 current through the capacitor a) Vc(s) V s (s² + 1600 s+ 64.104) Voltage from inductance Inductance current Voltage across the resistor 192.104 b) Vc(s) = V s (s² + 1600 s + 64.104) Current flowing through the resistor Inductance current at time t=0 60 s + 96000 c) Vc(s) = V s2 + 1600 s + 64.104 1200 s + 192.104 V s (s² + 1600 s + 64.104) d) Vc(s) = The switch is closed at time t=0 after being open for long enough. Which of the following is the Laplace transform of voltage Vc(t)? -1200 e) Vc(s) = V s² + 1600 s + 64.104

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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