ASN3 - Class Notes October 5: Difference between revisions

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<math> x(t)= \int_{-\infty} ^ {\infty} x(t')\delta_(t'-t) dt' \!</math>
<math> x(t)= \int_{-\infty} ^ {\infty} x(t')\delta_(t'-t) dt' \!</math>


Using such techniquies as we did above (refered to as The Game by , similar equations can be manipulated to find its output of Linear Invarient System.
Using such techniquies as we did above (refered to as The Game in Signals and Systems), similar equations can be manipulated to find its output of Linear Invarient System.





Latest revision as of 21:34, 17 December 2009

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When T is very large (approaching infinity) the quanity on the left transforms to be approximately the quanity on the right.



Using the relations above, can we make an unperiodic signal such as the one given below and make it periodic by taking the limit?

note that

Using the Fourier Transform property along with then

Reordering order of integration

note that the defination of the delta function is

Using such techniquies as we did above (refered to as The Game in Signals and Systems), similar equations can be manipulated to find its output of Linear Invarient System.


                     THE GAME
            LTI (Linear Time Invariant System) 
Input     LTI                             Output                                  Reason

Superposition

Superposition