Circuit Analysis in the s-domain 40 v(t) 2 H 82 In the circuit in Figure 3, the switch has been closed (short circuit) for a long time. At t= 0, the switch opens (becomes орeп circuit) a) Draw the circuit at t=0 , and find the initial current of the inductors and the initial voltage of the capacitor at t = 0-. b) Construct the s-domain equivalent circuit for t >0. c) In the s-domain equivalent circuit, find the voltage V(s) for t2 0. mur |İLI t=0 24 V(+) 8N{ :0,25 F {8 H Şekil 3 Hint: To obtain the node voltage V(s) from the s-domain equivalent circuit, you may simplify the circuit in a convenient way and then write the required node voltage equation (or equations). Do not simplify and do not solve the equations.
Circuit Analysis in the s-domain 40 v(t) 2 H 82 In the circuit in Figure 3, the switch has been closed (short circuit) for a long time. At t= 0, the switch opens (becomes орeп circuit) a) Draw the circuit at t=0 , and find the initial current of the inductors and the initial voltage of the capacitor at t = 0-. b) Construct the s-domain equivalent circuit for t >0. c) In the s-domain equivalent circuit, find the voltage V(s) for t2 0. mur |İLI t=0 24 V(+) 8N{ :0,25 F {8 H Şekil 3 Hint: To obtain the node voltage V(s) from the s-domain equivalent circuit, you may simplify the circuit in a convenient way and then write the required node voltage equation (or equations). Do not simplify and do not solve the equations.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Question
– Circuit Analysis in the s-domain
![Circuit Analysis in the s-domain
4Ω ν)
2Η 8Ω
In the circuit in Figure 3, the switch has been closed (short
circuit) for a long time. At t= 0, the switch opens (becomes
орen circuit)
a) Draw the circuit at t= 0, and find the initial current of the
inductors and the initial voltage of the capacitor at t= 0 .
b) Construct the s-domain equivalent circuit for t>0.
c) In the s-domain equivalent circuit, find the voltage V.(s) for t2 0.
İLI
t=0
24 V(+) 8Ng
:0,25 F
8 H
Şekil 3
Hint: To obtain the node voltage V(s) from the s-domain equivalent circuit, you may simplify the circuit
in a convenient way and then write the required node voltage equation (or equations).
Do not simplify and do not solve the equations.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc55b9342-42c2-47c3-8c83-a4032a4edee2%2F5c2e9ed9-5052-414d-886d-51ce8e2dc702%2F5axf829_processed.png&w=3840&q=75)
Transcribed Image Text:Circuit Analysis in the s-domain
4Ω ν)
2Η 8Ω
In the circuit in Figure 3, the switch has been closed (short
circuit) for a long time. At t= 0, the switch opens (becomes
орen circuit)
a) Draw the circuit at t= 0, and find the initial current of the
inductors and the initial voltage of the capacitor at t= 0 .
b) Construct the s-domain equivalent circuit for t>0.
c) In the s-domain equivalent circuit, find the voltage V.(s) for t2 0.
İLI
t=0
24 V(+) 8Ng
:0,25 F
8 H
Şekil 3
Hint: To obtain the node voltage V(s) from the s-domain equivalent circuit, you may simplify the circuit
in a convenient way and then write the required node voltage equation (or equations).
Do not simplify and do not solve the equations.
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