Determine the Zero State Response for the LT-I system described by the differential equation: y" (t) + 4y (t) + 4y (t) = x(t) for an input signal: x (t) = 8 cos(2t)u(t) with initial conditions: y(0)=0, y'(0) = 1 Enter the numeric values (whole numbers only) for the coefficients in the expression below: YZSR (t) = E cos(wt)u(t) + F sin(wt)u(t) + Geht u (t) + Jtektu (t) E= type your answer... type your answer... W type your answer... F= type your answer... G= type your answer... ,h= ,k= type your answer... J= type your answer...

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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i know you have to find the zero input response first, before zero state response so if you only want to do that, that's more than enough!

Determine the Zero State Response for the LT-I system described by the differential equation:
y" (t) + 4y (t) + 4y (t) = x(t)
for an input signal: x (t) = 8 cos(2t)u(t)
with initial conditions: y(0)=0, y'(0) = 1
Enter the numeric values (whole numbers only) for the coefficients in the expression below:
YZSR (t) = E cos(wt)u(t) + F sin(wt)u(t) + Geht u (t) + Jtektu (t)
E= type your answer...
type your answer...
W type your answer...
F= type your answer...
G= type your answer...
,h=
,k= type your answer...
J= type your answer...
Transcribed Image Text:Determine the Zero State Response for the LT-I system described by the differential equation: y" (t) + 4y (t) + 4y (t) = x(t) for an input signal: x (t) = 8 cos(2t)u(t) with initial conditions: y(0)=0, y'(0) = 1 Enter the numeric values (whole numbers only) for the coefficients in the expression below: YZSR (t) = E cos(wt)u(t) + F sin(wt)u(t) + Geht u (t) + Jtektu (t) E= type your answer... type your answer... W type your answer... F= type your answer... G= type your answer... ,h= ,k= type your answer... J= type your answer...
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