5.2. Use the definition of the Fourier transform (5.1) to find the transform of the following time signals: -bt (a) f(t) = ke-¹ [u(t) = u(t - to)], 0 < to <∞ - (b) f(t) = A cos(wot + b) (c) f(t) = eªu(-t), a > 0 (d) f(t) = C8(t + to)
5.2. Use the definition of the Fourier transform (5.1) to find the transform of the following time signals: -bt (a) f(t) = ke-¹ [u(t) = u(t - to)], 0 < to <∞ - (b) f(t) = A cos(wot + b) (c) f(t) = eªu(-t), a > 0 (d) f(t) = C8(t + to)
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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![5.2. Use the definition of the Fourier transform (5.1) to find the transform of the following
time signals:
(a) f(t) = ke bt [u(t)- u(t-to)], 0 < to <∞
(b) f(t) = A cos(wot + b)
(c) f(t) = eu(-t), a > 0
(d) f(t) = C8(t + to)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F031d554c-a0be-4605-ad67-4a3ae6f6062d%2Fbf7ad00d-aeee-4eaa-819a-ccf8b19bdbee%2Fwtmr9n_processed.jpeg&w=3840&q=75)
Transcribed Image Text:5.2. Use the definition of the Fourier transform (5.1) to find the transform of the following
time signals:
(a) f(t) = ke bt [u(t)- u(t-to)], 0 < to <∞
(b) f(t) = A cos(wot + b)
(c) f(t) = eu(-t), a > 0
(d) f(t) = C8(t + to)
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