Revision as of 14:08, 11 September 2008 by Thouliha (Talk)

Linearity

Background

Language Definition

A system is considered linear if 2 separate inputs, multiplied by 2 different constants, can produce 2 separate outputs multiplied by those same constants.

Mathematical Definition

A system is called linear if: For any inputs $ x_1(t) $ and $ x_2(t) $ yielding outputs of $ y_1(t) $ and $ y_2(t) $,

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

Example of Linear system

The easiest way to determine linearity is using standard definition, going from the y's to the x's, then from the x's to the y's, and checking the results to make sure that they are the same:

Lets take the system $ y(t)=8x(t) $ ,

x's going through the system yield:

$ ay_1(t)+by_2(t)=8ax_1(t)+8bx_2(t) $

y's going through the system yield:

$ ax_1(t)+bx_2(t)=8Z(t) $ where $ Z(t)=ay_1(t)+by_2(t) $ so

$ 8Z(t)=8(ay_1(t)+by_2(t))=8ax_1(t)+8bx_2(t) $ so both sides are satisfied






Example of Non-Linear system

Alumni Liaison

Abstract algebra continues the conceptual developments of linear algebra, on an even grander scale.

Dr. Paul Garrett