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Section 5 - Inverse Functions

Page history last edited by PBworks 15 years, 11 months ago

1.5 Inverse Functions

-A function is represented by a set of ordered pairs. For example, the function $eq=f(x)=x+1$ from set A= { $eq=1,2,3,4$ } to set B= { $eq=2,3,4,5$ } can be written like:

$eq=f(x)=x+1$ : { $eq=(1,2) (2,3) (3,4) (4,5)$ }

-An inverse function, denoted by $eq=f^{-1}$ , is formed when you switch the places of the ordered pairs. It is a function from set B to set A and is written like:

$eq=f^{-1}(x)=x-1$ : { $eq=(2,1) (3,2) (4,3) (5,4)$ }

*Remember: the domain of $eq=f^{-1}$ is equal to the range of $eq=f$ , and the range of $eq=f^{-1}$ is equal to the domain of $eq=f$

-Also, a function does not always have an inverse. For a function to have an inverse, the function must be one-to-one, meaning that no two numbers in the domain of $eq=f$ correspond to the same numbers in the range of $eq=f$ . When looking at a graph of a function it's really easy to tell if a function is one-to-one. If the function is one-to-one, it must pass the Horizontal Line Test. If a horizontal line can pass through two points on the graph, then that function does not have an inverse.

Finding the Inverse of a Function:

Using the Horizontal Line Test, determine whether $eq=f$ has an inverse
Replace $eq=f(x)$ with $eq=y$ , they mean the same thing and it's easier if you do
Switch the places of $eq=x$ and $eq=y$ , then solve for $eq=y$
Replace $eq=y$ with $eq=f^{-1}(x)$

Note: $eq=f$ and $eq=f^{-1}$ are only inveres of each if $eq=f^{-1}(f(x))=x$ and $eq=f(f^{-1}(x))=X$

Verify that Functions are Inverses: f(g(x))=x and g(f(x)=x

Ex. f(x)= $eq=2x^3$ -1 g(x)= $eq=\sqrt[3]{(x+1)/2}$

f(g(x))=2( $eq=\sqrt[3]{(x+1)/2}$ $eq=)^3$ -1

= 2((x+1)/2)-1

= X

The twos cancel and so do the ones. One two is on top of the fraction, the other on the bottom,and one of the ones is positive, while the other is negative-- Leaving the answer as X.

g(f(x))= $eq=\sqrt[3]{((2x-1)+1)/2}$

= x

The same goes for this equation, the twos and the ones cancel, making it equal to x also.

*Because both equations equal X they are inverses of eachother.

The Graph of an Inverse Function

- Every Inverse is a reflection over the line y=x

Comments (1)

Examples on finding an inverse and showing the relationship on the graph would have been nice. 19/20

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Ch P Prerequisite Chapter

Ch 1 Functions and Their Graphs

Ch 2 Polynomial and Rational Functions

Ch 3 Exponential and Logarithmic Functions

Ch 4 Trigonometric Functions

Ch 5 Analytic Trigonometry

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Section 5 - Inverse Functions

Finding the Inverse of a Function:

Verify that Functions are Inverses: f(g(x))=x and g(f(x)=x

The Graph of an Inverse Function

Section 5 - Inverse Functions

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