Polynomial and Rational Functions. Copyright Cengage Learning. All rights reserved.

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Transcription:

2 Polynomial and Rational Functions Copyright Cengage Learning. All rights reserved.

2.7 Graphs of Rational Functions Copyright Cengage Learning. All rights reserved.

What You Should Learn Analyze and sketch graphs of rational functions. Sketch graphs of rational functions that have slant asymptotes. Use graphs of rational functions to model and solve real-life problems. 3

The Graph of a Rational Function 4

The Graph of a Rational Function To sketch the graph of a rational function, use the following guidelines. 5

The Graph of a Rational Function When graphing simple rational functions, testing for symmetry can be useful. For instance, the graph of f(x) = 1/x is symmetrical with respect to the origin, and the graph of g(x) = 1/x 2 is symmetrical with respect to the y-axis. 6

Example 2 Sketching the Graph of a Rational Function Sketch the graph of by hand. Solution: y-intercept: because g(0) = x-intercepts: None because 3 0. Vertical asymptote: Horizontal asymptote: x = 2, zero of denominator y = 0, because degree of N (x) < degree of D (x) 7

Example 2 Solution cont d Additional points: By plotting the intercept, asymptotes, and a few additional points, you can obtain the graph shown in Figure 2.30. Confirm this with a graphing utility. Figure 2.30 8

Slant Asymptotes 9

Slant Asymptotes Consider a rational function whose denominator is of degree 1 or greater. If the degree of the numerator is exactly one more than the degree of the denominator, then the graph of the function has a slant (or oblique) asymptote. 10

Slant Asymptotes For example, the graph of has a slant asymptote, as shown in Figure 2.34. To find the equation of a slant asymptote, use long division. Figure 2.34 11

Slant Asymptotes For instance, by dividing x + 1 into x 2 x, you have f (x) = x 2 + Slant asymptote (y = x 2) As x increases or decreases without bound, the remainder term approaches 0, so the graph of f approaches the line y = x 2, as shown in Figure 2.34. 12

Example 6 A Rational Function with a Slant Asymptote Sketch the graph of. Solution: First, write f (x) in two different ways. Factoring the numerator enables you to recognize the x-intercepts. 13

Example 6 Solution cont d Long division enables you to recognize that the line y = x is a slant asymptote of the graph. 14

Example 6 Solution cont d y-intercept: (0, 2), because f (0) = 2 x-intercepts: ( 1, 0) and (2, 0) Vertical asymptote: Horizontal asymptote: x = 1, zero of denominator None, because degree of N (x) > degree of D (x) Slant asymptote: y = x Additional points: 15

Example 6 Solution cont d The graph is shown in Figure 2.35. Figure 2.35 16

Application 17

Example 7 Publishing A rectangular page is designed to contain 48 square inches of print. The margins on each side of the page are 1 inches wide. The margins at the top and bottom are each 1 inch deep. What should the dimensions of the page be so that the minimum amount of paper is used? 18

Example 7 Solution Let be the area to be minimized. From Figure 2.36, you can write A = (x + 3)(y + 2). Figure 2.36 19

Example 7 Solution cont d The printed area inside the margins is modeled by 48 = xy or y = 48/x. To find the minimum area, rewrite the equation for A in terms of just one variable by substituting 48/x for y. A = (x + 3) x > 0 20

Example 7 Solution cont d Use the table feature of a graphing utility to create a table of values for the function beginning at x = 1. From the table, you can see that the minimum value of y 1 occurs when x is somewhere between 8 and 9, as shown in Figure 2.38. Figure 2.38 21

Example 7 Solution cont d To approximate the minimum value of y 1 to one decimal place, change the table to begin at x = 8 and set the table step to 0.1. The minimum value of y 1 occurs when x 8.5, as shown in Figure 2.39. Figure 2.39 22

Example 7 Solution cont d The corresponding value of y is 48/8.5 5.6 inches. So, the dimensions should be x + 3 11.5 inches by y + 2 7.6 inches. 23

Application If you go on to take a course in calculus, you will learn an analytic technique for finding the exact value of x that produces a minimum area in Example 7. In this case, that value is x = 6 8.485. 24

Homework: Page 157 # s 17 41 eoo, 49 55 odd, 65, 67, 84 86 25

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