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Linear System

Linear System is a system that is has the following rule:

If $ y_1(t) = H{x_1(t)} \, $

and

$ y_2(t) = H{x_2(t)} \, $

Thus,

$ ay_1(t) + by_2(t) = H(ax_1(t) + bx_2(t)) \, $


Example of a Linear system

$ x_1(t) = 2t \, $

$ x_2(t) = 4t \, $

$ y_1(t) = 2(x_1(t)) = 2(2t) \, $

$ y_2(t) = 2(x_2(t)) = 2(4t) \, $

$ ay_1(t) + by_2(t) = a2(2t) + b2(4t) \, $

$ = 2(a(2t) + b(4t)) \, $

$ = 2(ax_1(t) + bx_2(t)) \, $

It follows the linearity rule, therefore $ y(t) = 2(x(t)) \, $ a linear system.

Example of Non Linear System

$ x_1(t) = t^2 \, $

$ x_2(t) = t^3 \, $

$ y_1(t) = (x_1(t))^2 = (t^2)^2 = t^4\, $

$ y_2(t) = (x_2(t))^2 = (t^3)^2 =t^6\, $

$ ay_1(t) + by_2(t) = a(t^4) + b(t^6) \, $

$ \neq (a(t^2) + b(t^3))^2 \, $ which is equal to $ (a^2y_1(t) + b^2y_2(t)) \, $

As shown, it does not follow the rule, thus $ y(t) = (x(t))^2 \, $ not a linear system

Alumni Liaison

Correspondence Chess Grandmaster and Purdue Alumni

Prof. Dan Fleetwood