If the operator T satisfies the following two conditions, then T is called a
linear operator and the system represented by a linear operator T is called a linear system:
1. Additivity:
Given that Tx, = y, and Tx, = y,, then
T{x, +x2) =y, +Y,
for any signals x, and x2.
2. Homogeneity (or Scaling):
for any signals x and any scalar a.
Any system that does not satisfy T is classified as a
nonlinear system. Equation can be combined into a single condition as
T { ~+ wI 2 ) = ~ I Y+I a 2 Y z (1.68)
where a, and a, are arbitrary scalars. Equation (1.68) is known as the superposition
property. Examples of linear systems are the resistor and the capacitor.
Examples of nonlinear systems are
y =x 2 (1.69)
y = cos x (1.70)
Note that a consequence of the homogeneity (or scaling) property of linear
systems is that a zero input yields a zero output. This follows readily by setting a = 0 . This is another important property of linear systems.
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