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6.2 One-to-One Functions; Inverse Functions

6.2 One-to-One Functions; Inverse Functions. In this section, we will study the following topics: One-to-one functions Finding inverse functions algebraically Finding inverse functions graphically Verifying that two functions are inverses, algebraically and graphically. Inverse Functions.

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6.2 One-to-One Functions; Inverse Functions

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  1. 6.2 One-to-One Functions; Inverse Functions In this section, we will study the following topics: One-to-one functions Finding inverse functions algebraically Finding inverse functions graphically Verifying that two functions are inverses, algebraically and graphically

  2. Inverse Functions Example*: Solution:

  3. Inverse Functions Notice, for each of the compositions f(g(x)) and g(f(x)), the input was x and the output was x. That is because the functions f and g “undo” each other. In this example, the functions f and g are inverse functions.

  4. Definition of Inverse Functions The notation used to show the inverse of function f is f -1 (read “f-inverse”). We will use this very definition to verify that two functions are inverses.

  5. Watch out for confusing notation. Always consider how it is used within the context of the problem.

  6. Example Use the definition of inverse functions to verify algebraically that are inverse functions.

  7. One-to-one Functions Not all functions have inverses. Therefore, the first step in any of these problems is to decide whether the function has an inverse. A function f has an inverse if and only if f is ONE-TO-ONE. A function is one-to-one if each y-value is assigned to only one x-value.

  8. One-to-one Functions Using the graph, it is easy to tell if the function is one-to-one.A function is one-to-one if its graph passes the H____________________ L_________ T__________ ;i.e. each horizontal line intersects the graph at most ONCE. one-to-one NOT one-to-one

  9. Example Use the graph to determine which of the functions are one-to-one.

  10. Finding the Inverse Function Graphically • To find the inverse graphically: • Make a table of values for function f. • Plot these points and sketch the graph of f • Make a table of values for f -1 by switching the x and y-coordinates of the ordered pair solutions for f • Plot these points and sketch the graph of f -1 • The graphs of inverse functions f and f -1 are reflections of one another in the line y = x.

  11. Finding the Inverse Function Graphically (continued) Example: y=x f(x)=3x-5

  12. Which of the following is the graph of the function below and its inverse? A) B) D) C)

  13. Finding the Inverse Function Algebraically • To find the inverse of a function algebraically: • First, use the Horizontal Line Test to decide whether f has an inverse function. If f is not 1-1, do not bother with the next steps. • Replace f(x) with y. • Switch x and y • Solve the equation for y. • Replace y with f -1(x).

  14. Finding the Inverse Function Algebraically Example Find the inverse of each of the following functions, if possible. 1. 2.

  15. Finding the Inverse Function Algebraically Example (cont.) 3. 4.

  16. Java Applet Click here to link to an applet demonstrating inverse functions.

  17. End of Section 6.2

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