10. Circuit Analysis using Laplace Transform a. Refer to the circuit shown below. Use Laplace to solve for y(t) if 1 F(s) = (s +1)? And the output of interest is across the 4 Ohms resistor (labeled R3 below). Assume zero initial conditions. b. For the circuit shown below with f(t) = 12u(t) Volts and ICs are i1(0) = 4 Amps, and i,2(0) = 2 Amps, Use Laplace transforms to solve for {y1(t), y2(t)} and the voltage across resistor R3. L2 L1 2H 1H R1 $20 y:(t) V:(t). R2 30 R3 40
10. Circuit Analysis using Laplace Transform a. Refer to the circuit shown below. Use Laplace to solve for y(t) if 1 F(s) = (s +1)? And the output of interest is across the 4 Ohms resistor (labeled R3 below). Assume zero initial conditions. b. For the circuit shown below with f(t) = 12u(t) Volts and ICs are i1(0) = 4 Amps, and i,2(0) = 2 Amps, Use Laplace transforms to solve for {y1(t), y2(t)} and the voltage across resistor R3. L2 L1 2H 1H R1 $20 y:(t) V:(t). R2 30 R3 40
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:10.
Circuit Analysis using Laplace Transform
a. Refer to the circuit shown below. Use Laplace to solve for y(t) if
1
F(s) =
(s +1)?
And the output of interest is across the 4 Ohms resistor (labeled R3
below). Assume zero initial conditions.
b. For the circuit shown below with f(t) = 12u(t) Volts and ICs are
i1(0) = 4 Amps, and i,2(0) = 2 Amps, Use Laplace transforms to
solve for {y1(t), y2(t)} and the voltage across resistor R3.
L2
L1
2H
1H
R1
$20
y:(t)
V:(t).
R2
30
R3
40
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