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2. The continuous-time Fourier transform of the triangular signal x(t) shown below left is Using the properties of linearity, time shifting, and time scaling, find the X(n) = 43 Fourier transform of the signal z(t) shown below right x(t) 2 z(t) 2 or 3 6 Hint: Note that the shape of z(t) may be represented in several ways, two of which are shown below:

2. The continuous-time Fourier transform of the triangular signal x(t) shown below left is Using the properties of linearity, time shifting, and time scaling, find the X(n) = 43 Fourier transform of the signal z(t) shown below right x(t) 2 z(t) 2 or 3 6 Hint: Note that the shape of z(t) may be represented in several ways, two of which are shown below:

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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2. The continuous-time Fourier transform of the triangular signal x(t) shown below left is sin² X(n) = 4 22² -1 Fourier transform of the signal z(t) shown below right Using the properties of linearity, time shifting, and time scaling, find the x(t) z(t) 1 or 2 3 4 01 5 6 Hint: Note that the shape of z(t) may be represented in several ways, two of which are shown below: M
Transcribed Image Text:2. The continuous-time Fourier transform of the triangular signal x(t) shown below left is sin² X(n) = 4 22² -1 Fourier transform of the signal z(t) shown below right Using the properties of linearity, time shifting, and time scaling, find the x(t) z(t) 1 or 2 3 4 01 5 6 Hint: Note that the shape of z(t) may be represented in several ways, two of which are shown below: M
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Step 1

Given the continuous time fourier transform of the triangular signal x(t),

XΩ=4sin2n2Ω2

Electrical Engineering homework question answer, step 1, image 1

then, 

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