ASN3 - Class Notes October 5: Difference between revisions

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<math> n/T \longrightarrow f </math>
<math> n/T \longrightarrow f </math>
<math> \sum_{n=-\infty}^\infty \frac{1}{T}\longrightarrow \int_{-\infty] ^ \infty }( )df \! </math>
<math> \sum_{n=-\infty}^\infty \frac{1}{T}\longrightarrow \int_{-\infty} ^ {\infty }( )df \! </math>




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becomes as the limit is taken n/t becomes f
becomes as the limit is taken n/t becomes f
<math> x(t)= \int_{-\infty ^ \infty} x(t')e^{ j2 \pi ft'} dt' e^{\frac{ j2 \pi ft}df \!</math>
<math> x(t)= \int_{-\infty} ^ {\infty} x(t')e^{ j2 \pi ft'} dt' e^{\frac{ j2 \pi ft}df \!</math>





Revision as of 12:41, 3 December 2009

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Can we make an unperiodic signal and make it periodic by taking the limit?

note that

becomes as the limit is taken n/t becomes f Failed to parse (syntax error): {\displaystyle x(t)= \int_{-\infty} ^ {\infty} x(t')e^{ j2 \pi ft'} dt' e^{\frac{ j2 \pi ft}df \!}


THE GAME

LTI (Linear Time Invariant System)

Input LTI Output Reason



.