+y (t) - + x (t) IF vc (t) 1 H Fig. 5 The input given to the circuit shownin Fig. 5 is x(t) Laplace transformtechnique, find the expression of the voltage y(t). Given that the initial voltage across the capacitor, vc (0-) = 1 V and initial cumrent through the inductor, i(0-) = 2 A. The grade distribution of the question is as follows: = 38(t). Using I. Writing KVL and/or KCL equation(s). II. Transfoming time domain equations to s-domain equations. III. Applying initial conditions corectly. IV. Finding out the expression of Y (s). V. Finding out y(t) by doing inverse Laplace transfomof Y (s).

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Do all parts
Yiz (1)
+y (t) -
x (t)
IF
vc (t)
10
Fig. 5
The input given to the circuit shown in Fig. 5 is x(t) = 38(t). Using
Laplace transfomtechnique, find the expression of the voltage y (t).
Given that the initial voltage across the capacitor, vc (0-) = 1 V and
initial curent through the inductor, i (0-) = 2 A. The grade
distribution of the question is as follows:
I. Writing KVL and/or KCL equation(s).
II. Transforming time domain equations to s-domain equations.
III. Applying initial conditions corectly.
IV. Finding out the expression of Y (s).
V. Finding out y(t) by doing inverse Laplace transfomof Y (s).
+
Transcribed Image Text:Yiz (1) +y (t) - x (t) IF vc (t) 10 Fig. 5 The input given to the circuit shown in Fig. 5 is x(t) = 38(t). Using Laplace transfomtechnique, find the expression of the voltage y (t). Given that the initial voltage across the capacitor, vc (0-) = 1 V and initial curent through the inductor, i (0-) = 2 A. The grade distribution of the question is as follows: I. Writing KVL and/or KCL equation(s). II. Transforming time domain equations to s-domain equations. III. Applying initial conditions corectly. IV. Finding out the expression of Y (s). V. Finding out y(t) by doing inverse Laplace transfomof Y (s). +
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