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<math>= K e^{-jwa}e^{jwt}</math>
 
<math>= K e^{-jwa}e^{jwt}</math>
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 +
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eigen function is <math>e^{-jwa}</math>
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<math>H(jw)=Ke^{-jwa}</math>
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 +
<math>h(t)=K\delta (t-a)</math>

Revision as of 17:22, 26 September 2008

Part A

$ y(t) = K x(t-a) $

if $ x(t)=e^{jwt} $ was inputed to the system

$ y(t) = K e^{jw(t-a)} $

$ = K e^{-jwa}e^{jwt} $


eigen function is $ e^{-jwa} $


$ H(jw)=Ke^{-jwa} $

$ h(t)=K\delta (t-a) $

Alumni Liaison

Sees the importance of signal filtering in medical imaging

Dhruv Lamba, BSEE2010