(→Example of a Linear System) |
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==Example of Non-Linear System== | ==Example of Non-Linear System== | ||
+ | GIVEN | ||
+ | x1(t) = t | ||
+ | x2(t) = t^2 | ||
+ | y(t) = sin(x) | ||
+ | y1(t) = sin(t) | ||
+ | y2(t) = sin(t^2) | ||
+ | ay1 + by2 = a*sin(t) + b*sin(t^2) != Sin(ax1+bx2) | ||
+ | So Non-Linear. |
Revision as of 16:03, 12 September 2008
Linear Systems
According to what I have understood, If a system input x(t) produces and output y(t), then it follows that if the system input is x(t+d) then output will be y(t+d). Also another idea is, If x1(t) --> y1(t) and x2(t) --> y2(t), then it follows that the input to the same system a1.x1(t)+a2.x2(t) gives output a1y1(t)+ a2y2(t)
Example of a Linear System
Given the system y(t) = 2x(t)
Input x1(t) = 4n and x2(t) = 10, we get y1(t) = 8n and y2(t) = 20. y1(t) + y2(t) = 8n+20
Input sum of the two inputs x(t) = 4n + 10, we get output y3(t) = 8n+20.
So--> y1(t) + y2(t) = y3(t) the system is LINEAR.
Example of Non-Linear System
GIVEN x1(t) = t x2(t) = t^2 y(t) = sin(x) y1(t) = sin(t) y2(t) = sin(t^2) ay1 + by2 = a*sin(t) + b*sin(t^2) != Sin(ax1+bx2) So Non-Linear.