in the Fig.1: hz[n] yln] x[n] h(n] ha[n] h,[n] Express the overall impulse response h[n] in terms of h, [n], h2[n], h3[n] and h4 [n]. Determine h[n] when h, [n] = [0.5 0.25 0, 5], h2[n] = hz[n] = (n+ 1)u{n] and h4[n] = 8[n - 2] ) Determine the response of the system in the figure to the :input %3D 11 4S 21
in the Fig.1: hz[n] yln] x[n] h(n] ha[n] h,[n] Express the overall impulse response h[n] in terms of h, [n], h2[n], h3[n] and h4 [n]. Determine h[n] when h, [n] = [0.5 0.25 0, 5], h2[n] = hz[n] = (n+ 1)u{n] and h4[n] = 8[n - 2] ) Determine the response of the system in the figure to the :input %3D 11 4S 21
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Question
![A- Consider the interconnection of the Linear Time-Invariant (LTI) systems shown
in the Fig.1:
yln]
x[n]
k[n]
ha[n]
ha[n]
i) Express the overall impulse response h[n] in terms of h [n], h2[n], h3[n] and
h4[n].
ii) Determine h[n] when h, [n] = [0.5 0.25 0, 5], h2[n] = h3[n] = (n + 1)u[n]
and h4 [n] = 8[n - 2]
iii) Determine the response of the system in the figure'to the nput
x[n] = 8[n+ 2] + 38[n- 1]- 48[n- 3]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F30b683a2-2e92-44aa-809f-0f76e431c429%2F43f4bbcf-a74b-41eb-bb01-1ac914ef7ebe%2Fgltoi0p_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A- Consider the interconnection of the Linear Time-Invariant (LTI) systems shown
in the Fig.1:
yln]
x[n]
k[n]
ha[n]
ha[n]
i) Express the overall impulse response h[n] in terms of h [n], h2[n], h3[n] and
h4[n].
ii) Determine h[n] when h, [n] = [0.5 0.25 0, 5], h2[n] = h3[n] = (n + 1)u[n]
and h4 [n] = 8[n - 2]
iii) Determine the response of the system in the figure'to the nput
x[n] = 8[n+ 2] + 38[n- 1]- 48[n- 3]
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