(New page: As discussed in class,a system is called linear if for any constants a,b belongs to phi and for anputs x1(t), x2(t) (x1[n],x2[n]) yielding output y1(t) , y2(t) respectively the response to...)
 
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As discussed in class,a system is called linear if for any constants a,b belongs to phi and for anputs x1(t), x2(t) (x1[n],x2[n])
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As discussed in class,a system is called '''linear''' if for any constants a,b belongs to phi and for anputs x1(t), x2(t) (x1[n],x2[n])
 
yielding output y1(t) , y2(t) respectively
 
yielding output y1(t) , y2(t) respectively
 
the response to
 
the response to
 
<pre>ax1(t) + bx2(t) is ay1(t)+by2(t).</pre>
 
<pre>ax1(t) + bx2(t) is ay1(t)+by2(t).</pre>
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 +
Consider the following system:
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<math>e^{2jt}\to system\to te^{-2jt}</math>
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<math>e^{-2jt}\to system\to te^{2jt}</</math>

Revision as of 08:12, 18 September 2008

As discussed in class,a system is called linear if for any constants a,b belongs to phi and for anputs x1(t), x2(t) (x1[n],x2[n]) yielding output y1(t) , y2(t) respectively the response to

ax1(t) + bx2(t) is ay1(t)+by2(t).

Consider the following system: $ e^{2jt}\to system\to te^{-2jt} $ $ e^{-2jt}\to system\to te^{2jt}</ $

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Questions/answers with a recent ECE grad

Ryne Rayburn