Given the following LTI system: y[n] - 2a[n+ 2] + 2x[n – 2] + 3x[n – 1] a) Find the impulse response h|n]. b) Given the following signal æ[n]: a[n] = (58[n + 2] + 36[n+1] + d[n – 1] – 8[n – 2])u[n – 1]
Given the following LTI system: y[n] - 2a[n+ 2] + 2x[n – 2] + 3x[n – 1] a) Find the impulse response h|n]. b) Given the following signal æ[n]: a[n] = (58[n + 2] + 36[n+1] + d[n – 1] – 8[n – 2])u[n – 1]
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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![Given the following LTI system:
y[n] = 2r[n+ 2] + 2x[n – 2] + 3r[n – 1]
a) Find the impulse response h[n].
b) Given the following signal x[n]:
a[n] = (58[n + 2] + 36[n+ 1] + d[n – 1] – d[n – 2])u[n – 1]
Find the output y[n].](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8c93a9f7-d6d8-4d5b-9bda-58c1ae381c70%2F87d2cc24-2cef-4cd8-aa41-a654e24c4f17%2Fkiybtjn_processed.png&w=3840&q=75)
Transcribed Image Text:Given the following LTI system:
y[n] = 2r[n+ 2] + 2x[n – 2] + 3r[n – 1]
a) Find the impulse response h[n].
b) Given the following signal x[n]:
a[n] = (58[n + 2] + 36[n+ 1] + d[n – 1] – d[n – 2])u[n – 1]
Find the output y[n].
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