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Unformatted text preview: t = 2. Question 10: We will solve p. 344, Problem 4.30 step by step. • Consider a test signal x ( t ), whose Fourier transform X ( ω ) is as speciﬁed in Figure P4.28(a). Let y ( t ) = x ( t ) cos( t ). Find Y ( ω ). Hint 1: You should know the following equations very well: cos( t ) = 1 2 ( e jt + ejt ) and F{ cos( t ) } = 1 2 (2 πδ ( ω1) + 2 πδ ( ω + 1)). Hint 2: Use the property that multiplication in time equals the convolution in frequency. Compute the 1 2 π X ( ω ) * F{ cos( t ) } , which should be the Fourier transform of x ( t ) cos( t ). • Use the previous subquestion, “guess” what type/shape of X ( ω ) can generate the given G ( jω ) based on the formula 1 2 π X ( ω ) * F{ cos( t ) } . • Once the correct X ( ω ) is “guessed,” then do the inverse Fourier transform to obtain x ( t )....
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This note was uploaded on 05/02/2009 for the course ECE 301 taught by Professor V."ragu"balakrishnan during the Spring '06 term at Purdue.
 Spring '06
 V."Ragu"Balakrishnan

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