(i) Find the expression for z₁(t). (ii) Find the expression for z₂ (t). (iii) Show that the output signal is given by y(t) = cos(250). For the below system, f₁ = 150 Hz, f₁ = 100 Hz, and ₤2 = 200 Hz. Note that x1(t) and x2(t) are continuous time signals and h(t) is the impulse response of the LTI system. Answer the following questions. x₁(t) = cos(wot)e-j2mfit z₁(t) h(t) = sinc(f₂t) (W) x2(t) = cos(wot)ej²=fit z₂(t) h(t) = sinc(f2t) y(t)

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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(i) Find the expression for z₁(t).
(ii) Find the expression for z₂ (t).
(iii) Show that the output signal is given by y(t) = cos(250).
Transcribed Image Text:(i) Find the expression for z₁(t). (ii) Find the expression for z₂ (t). (iii) Show that the output signal is given by y(t) = cos(250).
For the below system, f₁ = 150 Hz, f₁ = 100 Hz, and ₤2 = 200 Hz. Note that
x1(t) and x2(t) are continuous time signals and h(t) is the impulse response of the
LTI system. Answer the following questions.
x₁(t) = cos(wot)e-j2mfit
z₁(t)
h(t) = sinc(f₂t)
(W)
x2(t) = cos(wot)ej²=fit
z₂(t)
h(t) = sinc(f2t)
y(t)
Transcribed Image Text:For the below system, f₁ = 150 Hz, f₁ = 100 Hz, and ₤2 = 200 Hz. Note that x1(t) and x2(t) are continuous time signals and h(t) is the impulse response of the LTI system. Answer the following questions. x₁(t) = cos(wot)e-j2mfit z₁(t) h(t) = sinc(f₂t) (W) x2(t) = cos(wot)ej²=fit z₂(t) h(t) = sinc(f2t) y(t)
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