z(t) = 2 areik(K)2zt k=-2 where ag = a-k = (-1)*kK. 1. Determine all of the harmonic components of r(t) and identify the frequency fr of each har- monic. 2. Show the Fourier coefficients, i.e., lag|s graphically. 3. Use the distributive property of LTI system to determine y[n] = r[n] * hịn], where h[n] = u[n] and r[n] = K-"u[n] + K"u[-n]. Draw neat diagrams to obtain y[n], wherever necessary. %3D

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Use K=5.

x(t) = azeik(K)2#t
k=-2
where ax = a-k = (-1)*kK.
1. Determine all of the harmonic components of r(t) and identify the frequency f of each har-
monic.
2. Show the Fourier coefficients, i.e., Ja|s graphically.
3. Use the distributive property of LTI system to determine y[n] = r[n] * h[n], where h[n] = u[n]
and r[n] = K-"u[n] + K"u[-n]. Draw neat diagrams to obtain y[n], wherever necessary.
Transcribed Image Text:x(t) = azeik(K)2#t k=-2 where ax = a-k = (-1)*kK. 1. Determine all of the harmonic components of r(t) and identify the frequency f of each har- monic. 2. Show the Fourier coefficients, i.e., Ja|s graphically. 3. Use the distributive property of LTI system to determine y[n] = r[n] * h[n], where h[n] = u[n] and r[n] = K-"u[n] + K"u[-n]. Draw neat diagrams to obtain y[n], wherever necessary.
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