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COMPOSITION AND INVERSE

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1 COMPOSITION AND INVERSE
Standards 4, 24, 25 COMPOSITION AND INVERSE COMPOSITION FUNCTIONS PROBLEM 1 PROBLEM 2 INVERSE OF FUNCTIONS AND RELATIONS PROBLEM 3 PROBLEM 4 PROBLEM 5 END SHOW PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

2 ALGEBRA II STANDARDS THIS LESSON AIMS:
Students factor polynomials representing the difference of squares, perfect square trinomials, and the sum and difference of two cubes. STANDARD 24: Students solve problems involving functional concepts, such as composition, defining the inverse function and performing arithmetic operations on functions. STANDARD 25: Students use properties from number systems to justify steps in combining and simplifying functions. PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

3 ESTÁNDAR 4: Los estudiantes factorizan diferencias de cuadrados, trinomios cuadrados perfectos, y la suma y diferencia de dos cubos. ESTÁNDAR 24: Los estudinates resuelven problemas que involucran conceptos como composición de funciones, definición de inversa de funciones y efectuan operaciones aritméticas en funciones. ESTÁNDAR 25: Los estudiantes usan propiedades de los sistemas numéricos para combinar y simplificar funciones. PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

4 COMPOSITION OF FUNCTIONS
Standards 4, 24, 25 COMPOSITION OF FUNCTIONS Suppose f and g are functions such that the range of g is a subset of the domain of f. Then the composite function of f g can be described by the equation [f g](x)=f[g(x)] PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

5 Suppose f(x)=3x+2 and g(x)=4x +1 find [g f](x) [f g](x) and
Standards 4, 24, 25 Suppose f(x)=3x+2 and g(x)=4x +1 find 2 [g f](x) [f g](x) and then evaluate them for 1 and 3 respectively. [f g](x)=f[g(x)] [g f](x)=g[f(x)] =f( ) 4x + 1 2 =g( ) 3x+2 = 4( ) +1 2 =3( )+2 4x + 1 2 3x+2 =12x 2 = 4( ) +1 9x + 12x +4 2 =12x + 5 2 = 36x + 48x 2 = 36x + 48x + 17 2 Now find [g f](3) and [f g](1) [f g](x) =12x + 5 2 [g f](x) = 36x + 48x + 17 2 [f g](1) =12( ) + 5 2 1 = 36( ) + 48( ) + 17 2 [g f](3) 3 =12(1)+5 = 36(9) =12 + 5 = = 17 = 485 PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

6 Suppose f(x)=2x-1 and g(x)=6x +2 find [g f](x) [f g](x) and
Standards 4, 24, 25 Suppose f(x)=2x-1 and g(x)=6x +2 find 2 [g f](x) [f g](x) and then evaluate them for -2 and 5 respectively. [f g](x)=f[g(x)] [g f](x)=g[f(x)] =f( ) 6x + 2 2 =g( ) 2x-1 = 6( ) +2 2 =2( )-1 6x + 2 2 2x-1 =12x 2 = 6( ) +2 4x - 4 x + 1 2 =12x + 3 2 = 24x x 2 = 24x x + 8 2 Now find [g f](5) and [f g](-2) [f g](x) =12x + 3 2 [g f](x) = 24x - 24x + 8 2 [f g](-2) =12( ) + 3 2 -2 = 24( ) - 24( ) + 8 2 [g f](5) 5 =12(4)+3 = 24(25) =48 + 3 = = 51 = 488 PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

7 Standards 4, 24, 25 [f g](x) [g f](x)
INVERSE FUNCTIONS AND RELATIONS Two functions f and g are inverse functions if and only if both of their compositions are the identity function. That is, and [f g](x) =x [g f](x) Two relations are inverse relations if and only if whenever one relation contains the element (a,b), the other contains the element (b,a). PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

8 Find the inverse for the following relation and graph it:
Standards 4, 24, 25 Find the inverse for the following relation and graph it: (-2,6), (2,4), (5,7), (5,9), (-7,10) f(x)= f (x) = -1 (6,-2), (4,2), (7,5), (9,5), (10,-7) Identity function f(x)=x 4 2 6 -2 -4 -6 8 10 -8 -10 x y We can observe the symmetry respect the identity function. PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

9 Standards 4, 24, 25 Find the inverse of f(x)= 3x -9, graph both functions and then get the compositions from one to the other. f(x)= 3x - 9 y 8 4 12 -4 -8 -12 16 20 -16 -20 x f(x)=x f(x)= 3x - 9 y = 3x -9 f (x) -1 x = 3y - 9 Solving for y f (x) -1 = x + 3 1 3 x + 9 = 3y y = x + 9 y = x + 3 1 3 f (x) -1 = x + 3 1 3 PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

10 Now getting the composition from each other
Standards 4, 24, 25 Now getting the composition from each other f (x) -1 = x + 3 1 3 f(x)= 3x - 9 [f f ](x)=f[f (x)] -1 [f f ](x)=f [f(x)] -1 x + 3 1 3 =f( ) =g( ) 3x-9 x + 3 1 3 = ( ) + 3 1 3 = 3( ) - 9 3x-9 =(3) x 1 3 1 3 = (3x) –( )(9) +3 = x = x – 3 +3 = x PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

11 Standards 4, 24, 25 Find the inverse of f(x)= 2x +8, graph both functions and then get the compositions from one to the other. f(x)= 2x+8 y 8 4 12 -4 -8 -12 16 20 -16 -20 x f(x)=x f(x)= 2x + 8 y = 2x +8 f (x) -1 x = 2y + 8 Solving for y x – 8 = 2y f (x) -1 = x - 4 1 2 y = x - 8 y = x - 4 1 2 f (x) -1 = x - 4 1 2 PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

12 Now getting the composition from each other
Standards 4, 24, 25 Now getting the composition from each other f (x) -1 = x - 4 1 2 f(x)= 2x + 8 [f f ](x)=f[f (x)] -1 [f f ](x)=f [f(x)] -1 x - 4 1 2 =f( ) =g( ) 2x+8 x - 4 1 2 = ( ) - 4 1 2 = 2( ) + 8 2x+8 =(2) x 1 2 1 2 = (2x) –( )(8) -4 = x = x – 4 +4 = x PRESENTATION CREATED BY SIMON PEREZ. All rights reserved

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