An LTI discrete-time system has impulse response h[n] = (2)"u[-n] Find the system response to a unit step response input. O a. y[n] = 1.5(u[n] + (3)"u[-n-1]) Ob. No Answer is Correct. Oc. y[n] 3u[n] + (3)¹+¹u[n + 1] O d. y[n] 2u[n] + (2)¹¹¹u[ n − 1] - Oe. y[n] 2u[n] + (2) ¹¹u[n + 1] =

An LTI discrete-time system has impulse response h[n] = (2)"u[-n] Find the system response to a unit step response input. O a. y[n] = 1.5(u[n] + (3)"u[-n-1]) Ob. No Answer is Correct. Oc. y[n] 3u[n] + (3)¹+¹u[n + 1] O d. y[n] 2u[n] + (2)¹¹¹u[ n − 1] - Oe. y[n] 2u[n] + (2) ¹¹u[n + 1] =

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

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An LTI discrete-time system has impulse response
h[n]
(2)"u[-n]
Find the system response to a unit step response input.
=
O a. y[n] 1.5(u[n] + (3)"u[-n-1])
Ob. No Answer is Correct.
Oc.
O d. y[n]
Oe. y[n]
=
y[n] 3u [n] + (3)+¹u[n+ 1]
2u[n] + (2)¹¹¹u[−n − 1]
2u[n] + (2)¹¹u[n + 1]
=Y

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