160 0.5 H Vo 312.5 µF 4 V R=16 0, L- 0,5 H, C= 312,5 µF Vs(t) - 4 V Vc(t) = Vo(t). Constant voltage source voltage across capacitor current through the capacitor Voltage from inductance V(t) inductance current VR+ voltage across resistor current flowing through resistor Vc (0) 3V Capacitor voltage at time t-0 After the switch has been open long enough, it is closed at t = 0. Which of the following is the Laplace transform of the ic(t) current?
160 0.5 H Vo 312.5 µF 4 V R=16 0, L- 0,5 H, C= 312,5 µF Vs(t) - 4 V Vc(t) = Vo(t). Constant voltage source voltage across capacitor current through the capacitor Voltage from inductance V(t) inductance current VR+ voltage across resistor current flowing through resistor Vc (0) 3V Capacitor voltage at time t-0 After the switch has been open long enough, it is closed at t = 0. Which of the following is the Laplace transform of the ic(t) current?
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter21: Resistive-capacitive Series Circuits
Section: Chapter Questions
Problem 6RQ: A 15-F AC capacitor is connected in series with a 50 resistor. The capacitor has a voltage rating...
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![160
30.5 H
Vo
312.5 µF
4 V
R=16 0, L= 0,5 H,
C-312,5 µF
Vs(t) - 4 V
Vet) - Va(t)
Constant voltage source
voltage across capacitor
current through the capacitor
Voltage from inductance
V(t)
inductance current
VR +)
|voltage across resistor
current flowing through resistor
Vc (0) 3V
Capacitor voltage at time t-0
After the switch has been open long enough, it is closed att = 0. Which of the following
is the Laplace transform of the ic(t) current?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4c338b5e-3222-42f1-8fa8-272b2331205d%2Fc6d0e4e3-27e1-4aa9-976b-0ecb164fd578%2F8zke0a_processed.jpeg&w=3840&q=75)
Transcribed Image Text:160
30.5 H
Vo
312.5 µF
4 V
R=16 0, L= 0,5 H,
C-312,5 µF
Vs(t) - 4 V
Vet) - Va(t)
Constant voltage source
voltage across capacitor
current through the capacitor
Voltage from inductance
V(t)
inductance current
VR +)
|voltage across resistor
current flowing through resistor
Vc (0) 3V
Capacitor voltage at time t-0
After the switch has been open long enough, it is closed att = 0. Which of the following
is the Laplace transform of the ic(t) current?
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