2. For the following pairs of input signal, x (t), and system impulse response, h (t), determine the output signal, y (t): (a) x(t)=8(t-1)+8(1+1), h(t)=e¹²¹u(t) (b) x(t)=u(t), h(t)=u(t)-u(t-1) 3. Two first order systems are cascaded as shown in Figure (1): hi(t) = e ²¹-u(t), and h₂(t) = e¹0.St.u(t) x(1) h, (t) h₂(t) Determine the output when a unit step signal is input. -2.5 y(t)

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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2. For the following pairs of input signal, x (t), and system impulse
response, h (t), determine the output signal, y (t):
(a) x(t)=8(t-1)+8(1+1), h(t)=e¹²¹u(t)
(b) x(t)=u(t), h(t)=u(t)-u(t-1)
3. Two first order systems are cascaded as shown in Figure (1):
hi(t) = e ²¹-u(t), and h₂(t) = e.u(t)
x(1)
h, (t)
h₂(t)
Determine the output when a unit step signal is input.
-2.5
+y(t)
Transcribed Image Text:2. For the following pairs of input signal, x (t), and system impulse response, h (t), determine the output signal, y (t): (a) x(t)=8(t-1)+8(1+1), h(t)=e¹²¹u(t) (b) x(t)=u(t), h(t)=u(t)-u(t-1) 3. Two first order systems are cascaded as shown in Figure (1): hi(t) = e ²¹-u(t), and h₂(t) = e.u(t) x(1) h, (t) h₂(t) Determine the output when a unit step signal is input. -2.5 +y(t)
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