Q.1 Signal x(t)=-2u(t + 2) + 5u(t)-3(t-2)u(t-2) + 3(t-3)u(t-3) is an input to the system A and B that can be illustrated as in Figure Q1. The outputs from System A and System B are given by the respective y(t) = x(-3t+6), and z(t) = 2x(t)-4. x(t) System A System B Figure Q1 →y(t) z(t) (d) By referring to the input x(t) and systems presented in Figure Q1, classify the type of system and explain your system classification. (Hint: you can consider causal, non-causal, memory and memoryless system in the solution)

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Q.1 Signal x(t)=-2u(t + 2) + 5u(t)-3(t-2)u(t-2) + 3(t-3)u(t-3) is an input
to the system A and B that can be illustrated as in Figure Q1. The outputs from System A
and System B are given by the respective y(t) = x(-3t+ 6), and z(t) = 2x(t) - 4.
x(t)
System A
System B
Figure Q1
→y(t)
z(t)
(d) By referring to the input x (t) and systems presented in Figure Q1, classify the type
of system and explain your system classification. (Hint: you can consider causal,
non-causal, memory and memoryless system in the solution)
Transcribed Image Text:Q.1 Signal x(t)=-2u(t + 2) + 5u(t)-3(t-2)u(t-2) + 3(t-3)u(t-3) is an input to the system A and B that can be illustrated as in Figure Q1. The outputs from System A and System B are given by the respective y(t) = x(-3t+ 6), and z(t) = 2x(t) - 4. x(t) System A System B Figure Q1 →y(t) z(t) (d) By referring to the input x (t) and systems presented in Figure Q1, classify the type of system and explain your system classification. (Hint: you can consider causal, non-causal, memory and memoryless system in the solution)
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