Title: Rational%20Functions
1Rational Functions
Warm Up
Lesson Presentation
Lesson Quiz
Holt Algebra 2
Holt McDougal Algebra 2
2Warm Up Find the zeros of each function.
1. f(x) x2 2x 15
5, 3
2. f(x) x2 49
7
Simplify. Identify any x-values for which the
expression is undefined.
3.
x ? 1
4.
x ? 6
3Objectives
Graph rational functions. Transform rational
functions by changing parameters.
4Vocabulary
rational function discontinuous
function continuous function hole (in a graph)
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8Example 1 Transforming Rational Functions
Using the graph of f(x) as a guide,
describe the transformation and graph each
function.
A. g(x)
B. g(x)
Because h 2, translate f 2 units left.
Because k 3, translate f 3 units down.
9Check It Out! Example 1
a. g(x)
b. g(x)
Because k 1, translate f 1 unit up.
Because h 4, translate f 4 units left.
10The values of h and k affect the locations of
the asymptotes, the domain, and the range of
rational functions whose graphs are hyperbolas.
11Example 2 Determining Properties of Hyperbolas
Identify the asymptotes, domain, and range of the
function g(x) 2.
h 3, k 2.
Vertical asymptote x 3
The value of h is 3.
Domain xx ? 3
Horizontal asymptote y 2
The value of k is 2.
Range yy ? 2
Check Graph the function on a graphing
calculator. The graph suggests that the function
has asymptotes at x 3 and y 2.
12Check It Out! Example 2
Identify the asymptotes, domain, and range of the
function g(x) 5.
h 3, k 5.
Vertical asymptote x 3
The value of h is 3.
Domain xx ? 3
Horizontal asymptote y 5
The value of k is 5.
Range yy ? 5
Check Graph the function on a graphing
calculator. The graph suggests that the function
has asymptotes at x 3 and y 5.
13A discontinuous function is a function whose
graph has one or more gaps or breaks. The
hyperbola graphed in Example 2 and many other
rational functions are discontinuous functions.
A continuous function is a function whose graph
has no gaps or breaks. The functions you have
studied before this, including linear, quadratic,
polynomial, exponential, and logarithmic
functions, are continuous functions.
14The numerator of this function is 0 when x 3
or x 2. Therefore, the function has
x-intercepts at 2 and 3. The denominator of this
function is 0 when x 1. As a result, the
graph of the function has a vertical asymptote at
the line x 1.
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16Example 3 Graphing Rational Functions
with Vertical Asymptotes
Identify the zeros and vertical asymptotes of
f(x) .
Step 1 Find the zeros and vertical asymptotes.
Factor the numerator.
The numerator is 0 when x 4 or x 1.
Zeros 4 and 1
The denominator is 0 when x 3.
Vertical asymptote x 3
17Example 3 Continued
Step 2 Graph the function.
Plot the zeros and draw the asymptote. Then make
a table of values to fill in missing points.
x 8 4 3.5 2.5 0 1 4
y 7.2 0 4.5 10.5 1.3 0 3.4
18Check It Out! Example 3
Identify the zeros and vertical asymptotes of
f(x) .
Step 1 Find the zeros and vertical asymptotes.
Factor the numerator.
The numerator is 0 when x 6 or x 1 .
Zeros 6 and 1
The denominator is 0 when x 3.
Vertical asymptote x 3
19Check It Out! Example 3 Continued
Step 2 Graph the function.
Plot the zeros and draw the asymptote. Then make
a table of values to fill in missing points.
Vertical asymptote x 3
x 7 5 2 1 2 3 7
y 1.5 2 4 0 4.8 6 10.4
20Some rational functions, including those whose
graphs are hyperbolas, have a horizontal
asymptote. The existence and location of a
horizontal asymptote depends on the degrees of
the polynomials that make up the rational
function.
Note that the graph of a rational function can
sometimes cross a horizontal asymptote. However,
the graph will approach the asymptote when x is
large.
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22Example 4A Graphing Rational Functions with
Vertical and Horizontal Asymptotes
Identify the zeros and asymptotes of the
function. Then graph.
Factor the numerator.
The numerator is 0 when x 4 or x 1.
Zeros 4 and 1
The denominator is 0 when x 0.
Vertical asymptote x 0
Horizontal asymptote none
Degree of p gt degree of q.
23Example 4A Continued
Identify the zeros and asymptotes of the
function. Then graph.
Graph with a graphing calculator or by using a
table of values.
Vertical asymptote x 0
24Example 4B Graphing Rational Functions with
Vertical and Horizontal Asymptotes
Identify the zeros and asymptotes of the
function. Then graph.
Factor the denominator.
The numerator is 0 when x 2.
Zero 2
The denominator is 0 when x 1.
Vertical asymptote x 1, x 1
Horizontal asymptote y 0
Degree of p lt degree of q.
25Example 4B Continued
Identify the zeros and asymptotes of the
function. Then graph.
Graph with a graphing calculator or by using a
table of values.
26Example 4C Graphing Rational Functions with
Vertical and Horizontal Asymptotes
Identify the zeros and asymptotes of the
function. Then graph.
Factor the numerator.
The numerator is 0 when x 3.
Zero 3
The denominator is 0 when x 1.
Vertical asymptote x 1
Horizontal asymptote y 4
27Example 4C Continued
Identify the zeros and asymptotes of the
function. Then graph.
Graph with a graphing calculator or by using a
table of values.
28Check It Out! Example 4a
Identify the zeros and asymptotes of the
function. Then graph.
f(x)
Factor the numerator.
The numerator is 0 when x 3 or x 5.
Zeros 3 and 5
The denominator is 0 when x 1.
Vertical asymptote x 1
Horizontal asymptote none
Degree of p gt degree of q.
29Check It Out! Example 4a Continued
Identify the zeros and asymptotes of the
function. Then graph.
Graph with a graphing calculator or by using a
table of values.
30Check It Out! Example 4b
Identify the zeros and asymptotes of the
function. Then graph.
Factor the denominator.
The numerator is 0 when x 2.
Zero 2
Vertical asymptote x 1, x 0
The denominator is 0 when x 1 or x 0.
Horizontal asymptote y 0
Degree of p lt degree of q.
31Check It Out! Example 4b Continued
Identify the zeros and asymptotes of the
function. Then graph.
Graph with a graphing calculator or by using a
table of values.
32Check It Out! Example 4c
Identify the zeros and asymptotes of the
function. Then graph.
Factor the numerator and the denominator.
The denominator is 0 when x 3.
Vertical asymptote x 3, x 3
Horizontal asymptote y 3
33Check It Out! Example 4c Continued
Identify the zeros and asymptotes of the
function. Then graph.
Graph with a graphing calculator or by using a
table of values.
34In some cases, both the numerator and the
denominator of a rational function will equal 0
for a particular value of x. As a result, the
function will be undefined at this x-value. If
this is the case, the graph of the function may
have a hole. A hole is an omitted point in a
graph.
35Example 5 Graphing Rational Functions with Holes
Factor the numerator.
There is a hole in the graph at x 3.
The expression x 3 is a factor of both the
numerator and the denominator.
Divide out common factors.
36Example 5 Continued
The graph of f is the same as the graph of y x
3, except for the hole at x 3. On the graph,
indicate the hole with an open circle. The domain
of f is xx ? 3.
37Check It Out! Example 5
Factor the numerator.
There is a hole in the graph at x 2.
The expression x 2 is a factor of both the
numerator and the denominator.
Divide out common factors.
38Check It Out! Example 5 Continued
The graph of f is the same as the graph of y x
3, except for the hole at x 2. On the graph,
indicate the hole with an open circle. The domain
of f is xx ? 2.
39Lesson Quiz Part I
1. Using the graph of f(x) as a guide,
describe the transformation and graph the
function g(x) .
g is f translated 4 units right.
2.
asymptotes x 1, y 2 Dxx ? 1 Ryy ?
2
40Lesson Quiz Part II
3. Identify the zeros, asymptotes, and holes in
the graph of . Then
graph.
zero 2 asymptotes x 0, y 1 hole at x 1