(New page: We are told that a system is linear and given inputs <math>\,x_1(t)=e^{2jt}\,</math> yields <math>\,y_1(t)=te^{-2jt}\,</math> <math>\,x_2(t)=e^{-2jt}\,</math> yields <math>\,y_2(t)=te^{2...)
 
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<math>\,x_2(t)=e^{-2jt}\,</math> yields <math>\,y_2(t)=te^{2jt}\,</math>
 
<math>\,x_2(t)=e^{-2jt}\,</math> yields <math>\,y_2(t)=te^{2jt}\,</math>
  
**initial given statements copied from
+
**initial given statements copied from Jeff Kubascik

Revision as of 14:21, 19 September 2008

We are told that a system is linear and given inputs

$ \,x_1(t)=e^{2jt}\, $ yields $ \,y_1(t)=te^{-2jt}\, $

$ \,x_2(t)=e^{-2jt}\, $ yields $ \,y_2(t)=te^{2jt}\, $

    • initial given statements copied from Jeff Kubascik

Alumni Liaison

Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

Buyue Zhang