(Example of Linear System)
(Example of Linear System)
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:<math>y_2(t) = H*[ x_2(t) ] = 87*[3t]</math>
 
:<math>y_2(t) = H*[ x_2(t) ] = 87*[3t]</math>
  
:<math>\alpha y_1(t) + \beta y_2(t) =  87 * [\alpha (4t)] + 87 *[ \beta (3t)] </math>
+
:<math>\alpha y_1(t) + \beta y_2(t) =  87 * [\alpha (4t)] + 87 *[ \beta (3t)] =  87 * [\alpha (4t) + \beta (3t)] </math>
:<math>\alpha y_1(t) + \beta y_2(t) =  87 * [\alpha (4t) + \beta (3t)] </math>
+
  
 
==Example of Non-Linear System==
 
==Example of Non-Linear System==

Revision as of 06:43, 12 September 2008

Problem 4

A linear is system is a system that given two valid inputs:

$ x_1(t) $
$ x_2(t) $

with respective outputs:

$ y_1(t) = H*[ x_1(t) ] $
$ y_2(t) = H*[ x_2(t) ] $

will satisfy the equation

$ \alpha y_1(t) + \beta y_2(t) = H*[ \alpha x_1(t) + \beta x_2(t) ] $

for any $ \alpha $ and $ \beta $.

Example of Linear System

define

$ x_1(t) = 4t $
$ x_2(t) = 3t $
$ H = 87 $

therefore

$ y_1(t) = H*[ x_1(t) ] = 87*[4t] $
$ y_2(t) = H*[ x_2(t) ] = 87*[3t] $
$ \alpha y_1(t) + \beta y_2(t) = 87 * [\alpha (4t)] + 87 *[ \beta (3t)] = 87 * [\alpha (4t) + \beta (3t)] $

Example of Non-Linear System

Alumni Liaison

Prof. Math. Ohio State and Associate Dean
Outstanding Alumnus Purdue Math 2008

Jeff McNeal