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<u></u><u>Definition 1</u>  
 
<u></u><u>Definition 1</u>  
  
<u></u>A system is called '''linear''' if for any constants <math>a,b\in </math>&nbsp; ''all complex numbers'' and for any input signals <span class="texhtml">''x''<sub>1</sub>(''t''),''x''<sub>2</sub>(''t'')</span> with response <span class="texhtml">''y''<sub>1</sub>(''t''),''y''<sub>2</sub>(''t'')</span>, respectively, the system's response to <span class="texhtml">''a''''x'''''<b><sub>1</sub>(''t'') + ''b'''''x''<sub>2</sub>(''t'')'''''</span>'''''is <span class="texhtml" />''a''''y'''''<b><sub>1</sub>(</b>'''''t'') + ''b''''''''y''<sub>2</sub>(''t'').  
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<u></u>A system is called '''linear''' if for any constants <math>a,b\in </math>&nbsp; ''all complex numbers'' and for any input signals <span class="texhtml">''x''<sub>1</sub>(''t''),''x''<sub>2</sub>(''t'')</span> with response <span class="texhtml">''y''<sub>1</sub>(''t''),''y''<sub>2</sub>(''t'')</span>, respectively, the system's response to <span class="texhtml">''a''''x'''''<b><sub>1</sub>(''t'') + ''b'''''x''<sub>2</sub>(''t'')'''''&lt;/span&gt;'''''is &lt;span class="texhtml" /&gt;''a''''y'''''&lt;b&gt;<sub>1</sub>('''''t'') + ''b''''''''y''<sub>2</sub>(''t''). '''
 +
</span>
  
 
<u>Definition 2</u>  
 
<u>Definition 2</u>  
  
If
+
If  
  
<math> x_1(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow y_1(t) </math>
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<math> x_1(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow y_1(t) </math>  
  
<math> x_2(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow y_2(t) </math>
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<math> x_2(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow y_2(t) </math>  
  
then
+
then  
  
<math> ax_1(t) + bx_2(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow ay_1(t) + by_2(t) </math>
+
<math> ax_1(t) + bx_2(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow ay_1(t) + by_2(t) </math>  
  
for any <math>a,b\in </math>&nbsp; ''all complex numbers'', any <math>x_1(t), x_2(t)</math> then we say the system is linear.
+
for any <math>a,b\in </math>&nbsp; ''all complex numbers'', any <span class="texhtml">''x''<sub>1</sub>(''t''),''x''<sub>2</sub>(''t'')</span> then we say the system is '''linear'''.  
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 +
<u>Definition 3</u>
 +
 
 +
<u></u>A system is '''linear '''

Revision as of 06:25, 6 May 2011

Linearity

There are three definitions we discussed in class for linearity.

Definition 1

A system is called linear if for any constants $ a,b\in $  all complex numbers and for any input signals x1(t),x2(t) with response y1(t),y2(t), respectively, the system's response to a'x1(t) + bx2(t)</span>is <span class="texhtml" />a'y<b>1(t) + b'''y2(t). </span>

Definition 2

If

$ x_1(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow y_1(t) $

$ x_2(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow y_2(t) $

then

$ ax_1(t) + bx_2(t) \rightarrow \begin{bmatrix} system \end{bmatrix} \rightarrow ay_1(t) + by_2(t) $

for any $ a,b\in $  all complex numbers, any x1(t),x2(t) then we say the system is linear.

Definition 3

A system is linear

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