A linear system is defined by the following block diagram and the impulse esponse, h(t), and an input signal 2(t) are shown in the following figures: La Syn Use the time domain convolution to find the y(t) the output of the system above if the signal z(t) shown above is applied to the linear system. Plot the signal y(t). (Show all your caleulations) | The signal z(t) time reversed to get the signal z(-t). If z(-t) is applied to the same system, find and plot the new zero state response ya(t) = h(t) + z(-1). Describe what happens when h(t) is also time reversed that is ya(t) = h(-t) 2(-1), plot the signal ya(t).
A linear system is defined by the following block diagram and the impulse esponse, h(t), and an input signal 2(t) are shown in the following figures: La Syn Use the time domain convolution to find the y(t) the output of the system above if the signal z(t) shown above is applied to the linear system. Plot the signal y(t). (Show all your caleulations) | The signal z(t) time reversed to get the signal z(-t). If z(-t) is applied to the same system, find and plot the new zero state response ya(t) = h(t) + z(-1). Describe what happens when h(t) is also time reversed that is ya(t) = h(-t) 2(-1), plot the signal ya(t).
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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