Part B A linear time-invariant discrete-time system has an impulse response h(n) = {co.6)" , n <0 n 20 Use the convolution method to find the output, y(n), of the system when the input is 0 , n< 0 (1.2)", 0 < n 5 0 , n> 5 x(n) = Calculate y(0), y(5), and y(10). Plot y(n) to scale for all values of n.
Part B A linear time-invariant discrete-time system has an impulse response h(n) = {co.6)" , n <0 n 20 Use the convolution method to find the output, y(n), of the system when the input is 0 , n< 0 (1.2)", 0 < n 5 0 , n> 5 x(n) = Calculate y(0), y(5), and y(10). Plot y(n) to scale for all values of n.
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Author:Robert L. Boylestad
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Transcribed Image Text:Part B
A linear time-invariant discrete-time system has an impulse response
h(n) = {co.6)" ,
n <0
n 20
Use the convolution method to find the output, y(n), of the system when the input is
0 , n< 0
(1.2)", 0 < n 5
0 , n> 5
x(n) =
Calculate y(0), y(5), and y(10). Plot y(n) to scale for all values of n.
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