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College Algebra Fifth Edition James Stewart Lothar Redlin Saleem Watson.

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1 College Algebra Fifth Edition James Stewart Lothar Redlin Saleem Watson

2 Functions 3

3 One-to-One Functions and Their Inverses 3.7

4 Inverse of a Function The inverse of a function is a rule that acts on the output of the function and produces the corresponding input. So, the inverse “undoes” or reverses what the function has done.

5 One-to-One Function Not all functions have inverses. Those that do are called one-to-one.

6 One-to-One Functions

7 Let’s compare the functions f and g whose arrow diagrams are shown. f never takes on the same value twice (any two numbers in A have different images). g does take on the same value twice (both 2 and 3 have the same image, 4).

8 One-to-One Functions In symbols, g(2) = g(3) but f(x 1 ) ≠ f(x 2 ) whenever x 1 ≠ x 2 Functions that have this latter property are called one-to-one.

9 One-to-One Function—Definition A function with domain A is called a one-to-one function if no two elements of A have the same image, that is, f(x 1 ) ≠ f(x 2 ) whenever x 1 ≠ x 2

10 One-to-One Functions An equivalent way of writing the condition for a one-to-one function is as follows: If f(x 1 ) = f(x 2 ), then x 1 = x 2.

11 One-to-One Functions If a horizontal line intersects the graph of f at more than one point, then we see from the figure that there are numbers x 1 ≠ x 2 such that f(x 1 ) = f(x 2 ).

12 One-to-One Functions This means that f is not one-to-one. Therefore, we have the following geometric method for determining whether a function is one-to-one.

13 Horizontal Line Test A function is one-to-one if and only if: No horizontal line intersects its graph more than once.

14 E.g. 1—Deciding Whether a Function Is One-to-One Is the function f(x) = x 3 one-to-one?

15 E.g. 1—If a Function Is One-to-One If x 1 ≠ x 2, then x 1 3 ≠ x 2 3. Two different numbers cannot have the same cube. Therefore, f(x) = x 3 is one-to-one. Solution 1

16 E.g. 1—If a Function Is One-to-One From the figure, we see that no horizontal line intersects the graph of f(x) = x 3 more than once. Hence, by the Horizontal Line Test, f is one-to-one. Solution 2

17 One-to-One Functions Notice that the function f of Example 1 is increasing and is also one-to-one. In fact, it can be proved that every increasing function and every decreasing function is one-to-one.

18 E.g. 2—If a Function Is One-to-One Is the function g(x) = x 2 one-to-one? This function is not one-to-one because, for instance, g(1) = 1 and g(–1) = 1 and so 1 and –1 have the same image. Solution 1

19 E.g. 2—If a Function Is One-to-One From the figure, we see that there are horizontal lines that intersect the graph of g more than once. So, by the Horizontal Line Test, g is not one-to-one. Solution 2

20 One-to-One Functions Although the function g in Example 2 is not one-to-one, it is possible to restrict its domain so that the resulting function is one-to-one.

21 One-to-One Functions In fact, if we define h(x) = x 2, x ≥ 0 then h is one-to-one, as you can see from the figure and the Horizontal Line Test.

22 E.g. 3—Showing that a Function Is One-to-One Show that the function f(x) = 3x + 4 is one-to-one. Suppose there are numbers x 1 and x 2 such that f(x 1 ) = f(x 2 ). Then, Therefore, f is one-to-one.

23 The Inverse of a Function

24 Inverse of a Function One-to-one functions are important because they are precisely the functions that possess inverse functions according to the following definition.

25 Inverse of a Function—Definition Let f be a one-to-one function with domain A and range B. Then, its inverse function f –1 has domain B and range A and is defined by: for any y in B.

26 Inverse of a Function This definition says that, if f takes x into y, then f –1 takes y back into x. If f were not one-to-one, then f –1 would not be defined uniquely.

27 Inverse of a Function This arrow diagram indicates that f –1 reverses the effect of f.

28 Inverse of a Function From the definition, we have: domain of f –1 = range of f range of f –1 = domain of f

29 Warning on Notation Don’t mistake the –1 in f –1 for an exponent. f –1 does not mean 1/f(x) The reciprocal 1/f(x) is written as (f(x)) –1.

30 E.g. 4—Finding f –1 for Specific Values If f(1) = 5, f(3) = 7, f(8) = –10 find f –1 (5), f –1 (7), f –1 (–10)

31 E.g. 4—Finding f –1 for Specific Values From the definition of f –1, we have: f –1 (5) = 1 because f(1) = 5 f –1 (7) = 3 because f(3) = 7 f –1 ( – 10) = 8 because f(8) = – 10

32 E.g. 4—Finding f –1 for Specific Values The figure shows how f –1 reverses the effect of f in this case.

33 The Inverse of a Function By definition, the inverse function f –1 undoes what f does: If we start with x, apply f, and then apply f –1, we arrive back at x, where we started. Similarly, f undoes what f –1 does.

34 The Inverse of a Function In general, any function that reverses the effect of f in this way must be the inverse of f. These observations are expressed precisely—as follows.

35 Inverse Function Property Let f be a one-to-one function with domain A and range B. The inverse function f –1 satisfies the following cancellation properties. Conversely, any function f –1 satisfying these equations is the inverse of f.

36 Inverse Function Property These properties indicate that f is the inverse function of f –1. So, we say that f and f –1 are inverses of each other.

37 E.g. 5—Verifying that Two Functions Are Inverses Show that f(x) = x 3 and g(x) = x 1/3 are inverses of each other. Note that the domain and range of both f and g is. We have: So, by the Property of Inverse Functions, f and g are inverses of each other.

38 E.g. 5—Verifying that Two Functions Are Inverses These equations simply say that: The cube function and the cube root function, when composed, cancel each other.

39 Computing Inverse Functions Now, let’s examine how we compute inverse functions. First, we observe from the definition of f –1 that:

40 Computing Inverse Functions So, if y = f(x) and if we are able to solve this equation for x in terms of y, then we must have x = f –1 (y). If we then interchange x and y, we have y = f –1 (x) which is the desired equation.

41 How to Find the Inverse of a One-to-One Function 1.Write y = f(x). 2.Solve this equation for x in terms of y (if possible). 3.Interchange x and y. The resulting equation is y = f –1 (x)

42 How to Find the Inverse of a One-to-One Function Note that Steps 2 and 3 can be reversed. That is, we can interchange x and y first and then solve for y in terms of x.

43 E.g. 6—Finding the Inverse of a Function Find the inverse of the function f(x) = 3x – 2 First, we write y = f(x):y = 3x – 2 Then, we solve this equation for x:

44 E.g. 6—Finding the Inverse of a Function Finally, we interchange x and y: Therefore, the inverse function is:

45 E.g. 7—Finding the Inverse of a Function Find the inverse of the function We first write y = (x 5 – 3)/2 and solve for x.

46 E.g. 7—Finding the Inverse of a Function Then, we interchange x and y to get: y = (2x + 3) 1/5 Therefore, the inverse function is: f –1 (x) = (2x + 3) 1/5

47 Graphing the Inverse of a Function The principle of interchanging x and y to find the inverse function also gives a method for obtaining the graph of f –1 from the graph of f. If f(a) = b, then f –1 (b) = a. Thus, the point (a, b) is on the graph of f if and only if the point (b, a) is on the graph of f –1.

48 Graphing the Inverse of a Function However, we get the point (b, a) from the point (a, b) by reflecting in the line y = x.

49 Graph of the Inverse Function Therefore, as this figure illustrates, the following is true: The graph of f –1 is obtained by reflecting the graph of f in the line y = x.

50 E.g. 8—Finding the Inverse of a Function (a)Sketch the graph of (b)Use the graph of f to sketch the graph of f –1. (c)Find an equation for f –1.

51 E.g. 8—Finding Inverse of Function Using the transformations from Section 3.5, we sketch the graph of by: 1.Plotting the graph of the function 2.Moving it to the right 2 units. Example (a)

52 E.g. 8—Finding Inverse of Function The graph of f –1 is obtained from the graph of f in part (a) by reflecting it in the line y = x. Example (b)

53 E.g. 8—Finding Inverse of Function Solve for x, noting that y ≥ 0. Example (c)

54 E.g. 8—Finding Inverse of Function Interchange x and y: y = x 2 + 2, x ≥ 0 Thus, f –1 (x) = x 2 + 2, x ≥ 0 This expression shows that the graph of f –1 is the right half of the parabola y = x 2 + 2. Example (c)

55 E.g. 8—Finding Inverse of Function From the graph shown in the figure, that seems reasonable. Example (c)

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