Difference between revisions of "HW2-E Christen Juzeszyn ECE301Fall2008mboutin" - Rhea

Latest revision as of 15:32, 11 September 2008

System

Input: $X_k[n]=\delta [n-k]$

Output: $Y_k[n]=(k+1)^2 \delta [n-(k+1)]$

For any non-negative integer k

Question 6a

$x[n] \rightarrow \mbox{Time Delay} \rightarrow y[n]=x[n-n_0] \rightarrow System \rightarrow Y_k[n-n_0]=(k+1)^2 \delta [n-n_0-(k+1)]$

$x[n] \rightarrow System \rightarrow Y_k[n]=(k+1)^2 \delta [n-(k+1)] \rightarrow \mbox{Time Delay}\rightarrow Y_k[n-n_0]=(k+1)^2 \delta [n-n_0-(k+1)]$

So the system is time invariant.

Question 6b

$$ x_0[n]= u[n] $$ will yield the output $$ y[n]=u[n-1] $$

Revision as of 15:27, 11 September 2008 (view source) Cjuzeszy (Talk) ← Older edit		Latest revision as of 15:32, 11 September 2008 (view source) Cjuzeszy (Talk) (→‎Question 6b)
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	== Question 6b ==		== Question 6b ==
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		+	<font size = 4><math>x_0[n]= u[n]</math></font> will yield the output <font size = 4><math>y[n]=u[n-1]</math></font>

Difference between revisions of "HW2-E Christen Juzeszyn ECE301Fall2008mboutin" - Rhea

Latest revision as of 15:32, 11 September 2008

System

Question 6a

Question 6b

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