(New page: == Question 6a == I'm assuming k is the variable representing time. Under this assumption the following system cannot possibly be time invariant because of the <math>(k+1)^2</math> term.)
 
(Question 6a)
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== Question 6a ==
 
== Question 6a ==
  
I'm assuming k is the variable representing time.
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I'm assuming k is the variable representing any fo.
  
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<math> X_k[n]=X_k[n] where X_k[n]=\delta[n-k] and Y_k[n]=(k+1)^2 \delta[n-(k+1)]</math>
 
Under this assumption the following system cannot possibly be time invariant because of the <math>(k+1)^2</math> term.
 
Under this assumption the following system cannot possibly be time invariant because of the <math>(k+1)^2</math> term.

Revision as of 07:11, 11 September 2008

Question 6a

I'm assuming k is the variable representing any fo.

$ X_k[n]=X_k[n] where X_k[n]=\delta[n-k] and Y_k[n]=(k+1)^2 \delta[n-(k+1)] $ Under this assumption the following system cannot possibly be time invariant because of the $ (k+1)^2 $ term.

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