100 likes | 346 Views
Composite Functions. Example 1: Given functions f ( x ) = x 2 – 3 x and g ( x ) = 2 x + 1, find f g. The notation " f g " means f ( g ( x )). In other words, replace x in function f with 2 x + 1 (the g function). f ( x ) = ( x ) 2 – 3( x ).
E N D
Composite Functions Example 1: Given functions f(x) = x2 – 3x and g(x) = 2x + 1, find f g. The notation "f g" means f (g(x)). In other words, replace x in function f with 2x + 1 (the g function). f (x ) = (x)2 – 3(x)
Composite Functions Example 1: Given functions f(x) = x2 – 3x and g(x) = 2x + 1, find f g. The notation "f g" means f (g(x)). In other words, replace x in function f with 2x + 1 (the g function). f (x ) = ( )2 – 3( ) = f (g(x)) = (2x + 1)2 – 3(2x + 1) f g f g= 4x2 + 4x + 1 – 6x – 3 f g= 4x2 – 2x – 2
Example 2: Given functions and find f g and state its domain. x x Composite Functions Simplify the complex fraction by multiplying the numerator and denominator by x + 1.
Composite Functions At first glance it might appear that the domain of f g is the set of all real numbers except - 1.5.
However, remember that the g function, replaced x in the f function. Therefore, the domain of f g is: ( - , - 1.5 ) ( - 1.5, - 1 ) ( - 1, ). Composite Functions Since the g function is not defined for x = - 1, neither is the f g function.
Try: Given functions and find f g and state its domain. The composite function, f g = x. Its domain is: [ - 5, ). Composite Functions
Composite Functions END OF PRESENTATION