Section 4.4 Rational Functions and Their Graphs

Similar documents
Section 4.4 Rational Functions and Their Graphs. 1, the line x = 0 (y-axis) is its vertical asymptote.

Math 1330 Section : Rational Functions Definition: A rational function is a function that can be written in the form f ( x ), where

Domain: The domain of f is all real numbers except those values for which Q(x) =0.

x 16 d( x) 16 n( x) 36 d( x) zeros: x 2 36 = 0 x 2 = 36 x = ±6 Section Yes. Since 1 is a polynomial (of degree 0), P(x) =

Section Rational Functions and Inequalities. A rational function is a quotient of two polynomials. That is, is a rational function if

Math 121. Graphing Rational Functions Fall 2016

Algebra 2 Notes Name: Section 8.4 Rational Functions. A function is a function whose rule can be written as a of. 1 x. =. Its graph is a, f x

Rational Functions. Definition A rational function can be written in the form. where N(x) and D(x) are

What is the reasonable domain of this volume function? (c) Can there exist a volume of 0? (d) Estimate a maximum volume for the open box.

5.2 Properties of Rational functions

16 Rational Functions Worksheet

EXPLORING RATIONAL FUNCTIONS GRAPHICALLY

Graphing Rational Functions

2.4 Polynomial and Rational Functions

Radical Functions Review

Math Sections 4.4 and 4.5 Rational Functions. 1) A rational function is a quotient of polynomial functions:

Session 3. Rational and Radical Equations. Math 30-1 R 3. (Revisit, Review and Revive)

1.) ( ) Step 1: Factor the numerator and the denominator. Find the domain. is in lowest terms.

Begin Notes Immediately. Look at Example Below!!! Glue in Notebook

9.8 Graphing Rational Functions

Beginning of Semester To Do List Math 1314

Section 2-7. Graphs of Rational Functions

,?...?, the? or? s are for any holes or vertical asymptotes.

ICM ~Unit 4 ~ Day 2. Section 1.2 Domain, Continuity, Discontinuities

Objectives Graph and Analyze Rational Functions Find the Domain, Asymptotes, Holes, and Intercepts of a Rational Function

g(x) h(x) f (x) = Examples sin x +1 tan x!

Finding Asymptotes KEY

Limits. f(x) and lim. g(x) g(x)

The domain of any rational function is all real numbers except the numbers that make the denominator zero or where q ( x)

2-3 Graphing Rational Functions

3.6-Rational Functions & Their Graphs

2.3 Graph Sketching: Asymptotes and Rational Functions Math 125

AH Properties of Functions.notebook April 19, 2018

To find the intervals on which a given polynomial function is increasing/decreasing using GGB:

Rational functions, like rational numbers, will involve a fraction. We will discuss rational functions in the form:

RATIONAL EQUATIONS AND FUNCTIONS

Math 111 Lecture Notes Section 3.3: Graphing Rational Functions

This handout will discuss three kinds of asymptotes: vertical, horizontal, and slant.

College Algebra. Fifth Edition. James Stewart Lothar Redlin Saleem Watson

Skills Practice Skills Practice for Lesson 7.1

Math Stuart Jones. 4.3 Curve Sketching

3.7 Rational Functions. Copyright Cengage Learning. All rights reserved.

Exploring Rational Functions

Math 1314 Lesson 13 Analyzing Other Types of Functions

x 2 + 3, r 4(x) = x2 1

2-4 Graphing Rational Functions

lim x c x 2 x +2. Suppose that, instead of calculating all the values in the above tables, you simply . What do you find? x +2

Polynomial Graph Features: 1. Must be a smooth continuous curve (no holes, or sharp corners) Graphing Polynomial Functions

Limits, Continuity, and Asymptotes

Introduction to Rational Functions Group Activity 5 Business Project Week #8

A Catalog of Essential Functions

9.1A Exploring Rational Functions Using Transformations

Rational Functions Video Lecture. Sections 4.4 and 4.5

Radical and Rational Function Exam Questions

Date Lesson Text TOPIC Homework. Simplifying Rational Expressions Pg. 246 # 2-5, 7

Lesson 2.4 Exercises, pages

Checkpoint: Assess Your Understanding, pages

Section 3.6 Rational Functions

Section 2.3 (e-book 4.1 & 4.2) Rational Functions

1) A rational function is a quotient of polynomial functions:

2-5 Rational Functions

Example 1: Use the graph of the function f given below to find the following. a. Find the domain of f and list your answer in interval notation

Math 1314 Lesson 13 Analyzing Other Types of Functions

Section 4.2 Graphs of Exponential Functions

Math Lesson 13 Analyzing Other Types of Functions 1

The Graph of a Rational Function. R x

UNIT 8 STUDY SHEET POLYNOMIAL FUNCTIONS

QUADRATIC FUNCTIONS Investigating Quadratic Functions in Vertex Form

Math 111 Lecture Notes

f (x ) ax b cx d Solving Rational Equations Pg. 285 # 1, 3, 4, (5 7)sodo, 11, 12, 13

Graphing Rational Functions

7h2 Graphing Basic Rational Functions (Gebrochenrationaler Funktionen)

`Three sides of a 500 square foot rectangle are fenced. Express the fence s length f as a function of height x.

. As x gets really large, the last terms drops off and f(x) ½x

Transformation of curve. a. reflect the portion of the curve that is below the x-axis about the x-axis

Domain of Rational Functions

SLOPE A MEASURE OF STEEPNESS through 2.1.4

Student Exploration: General Form of a Rational Function

Example 1: Given below is the graph of the quadratic function f. Use the function and its graph to find the following: Outputs

Chapter 9 Review. By Charlie and Amy

SLOPE A MEASURE OF STEEPNESS through 7.1.5

Outputs. Inputs. the point where the graph starts, as we ll see on Example 1.

CHAPTER 4: Polynomial and Rational Functions

3.1 INTRODUCTION TO THE FAMILY OF QUADRATIC FUNCTIONS

Working with Rational Expressions

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

2.6: Rational Functions and Their Graphs

3 = Advanced Math 3 Fall Final Exam Review. Unit 1: If f(x) = x 2 + 3, g(x) = 3x + 1, and h(x) = x + 1, evaluate each.

Login your clickers & NO calculators. Get the 4.1 checkpoint from the brown table and answer the questions.

Lesson 6a Exponents and Rational Functions

Module 12 Rational Functions and Rational Equations

MAC What is a Rational Function? Module 12. Rational Functions and Rational Equations. Learning Objective

Math 1330 Final Exam Review Covers all material covered in class this semester.

Graphing Functions. 0, < x < 0 1, 0 x < is defined everywhere on R but has a jump discontinuity at x = 0. h(x) =

3.5 Rational Functions

Use Derivatives to Sketch the Graph of a Polynomial Function.

Graphing Techniques. Domain (, ) Range (, ) Squaring Function f(x) = x 2 Domain (, ) Range [, ) f( x) = x 2

The x-intercept can be found by setting y = 0 and solving for x: 16 3, 0

Rational Functions with Removable Discontinuities

f(x) = b x for b > 0 and b 1

Transcription:

Section 4.4 Rational Functions and Their Graphs p( ) A rational function can be epressed as where p() and q() are q( ) 3 polynomial functions and q() is not equal to 0. For eample, is a 16 rational function. Vertical Asymptote of Rational Functions The line a is a vertical asymptote of the graph of a function f if f() increases or decreases without bound as approaches a. Eamples: 1 Given, the line 0 (y-ais) is its vertical asymptote. Given, the line -1 is its vertical asymptote. ( + 1) Section 4.4 Rational Functions and Their Graphs 1

Finding Vertical Asymptotes and Holes Algebraically 1. Factor the numerator and denominator as much as possible.. Look at each factor in the denominator. If a factor cancels with a factor in the numerator, then there is a hole where that factor equals zero. If a factor does not cancel, then there is a vertical asymptote where that factor equals zero. Eample 1: Find any vertical asymptotes and/or holes of: 3 10 6 Vertical Asymptotes: Holes: Eample : Find any vertical asymptotes and/or holes of: + 5 3 3 3 4 Vertical Asymptotes: Holes: Section 4.4 Rational Functions and Their Graphs

Horizontal Asymptote of Rational Functions The line y b is a horizontal asymptote of the graph of a function f if f() approaches b as increases or decreases without bound. Eamples: 1 Given, the line y 0 (-ais) is its horizontal asymptote. Given ( + 1), the line y 1 is its horizontal asymptote. Horizontal asymptotes really have to do with what happens to the y-values as becomes very large or very small. If the y-values approach a particular number at the far left and far right ends of the graph, then the function has a horizontal asymptote. Note: A rational function may have several vertical asymptotes, but only at most one horizontal asymptote. Also, a graph cannot cross a vertical asymptote, but may cross a horizontal asymptote. Section 4.4 Rational Functions and Their Graphs 3

Finding Horizontal Asymptotes Let p( ). Shorthand: degree of f deg(f), numerator N, denominator D q( ) 1. If deg(n) > deg(d) then there is no horizontal asymptote.. If deg(n) < deg(d) then there is a horizontal asymptote and it is y 0 (-ais). 3. If deg(n) deg(d) then there is a horizontal asymptote and it is y b a, where a is the leading coefficient of the numerator. b is the leading coefficient of the denominator. Eample 3: Find the horizontal asymptote, if there is one, of: 9 + 3 a. deg(n) deg(d); therefore, 6 5 + 4 5 b. + + 3 + 6 1 deg(n) deg(d); therefore, c. 1 deg(n) deg(d); therefore, 3 + 5 For those eamples above that do have a horizontal asymptote, determine whether or not the graph of the function crosses it. Section 4.4 Rational Functions and Their Graphs 4

Steps to Graphing a Rational Function 1. Factor the numerator and denominator as much as possible. Look at the denominator. If a factor in the numerator cancels with a factor in the denominator, then there is a hole in the graph when that cancelled factor is equal to zero. If a factor does not cancel, then there is a vertical asymptote where that factor is equal to zero.. Find -intercept(s) by setting numerator equal to zero. 3. Find the y-intercept (if there is one) by substituting 0 in the function. 4. Find the horizontal asymptote (if there is one). 5. Use the -intercept(s) and vertical asymptote(s) to divide the -ais into intervals. Choose a test point in each interval to determine if the function is positive or negative there. This will tell you whether the graph approaches the vertical asymptote in an upward or downward direction. 6. Graph! Ecept for the breaks at the vertical asymptotes, the graph should be a nice smooth curve with no sharp corners. 3 Eample 4: Let. Find any holes, vertical asymptotes, -intercepts, y- + intercept, horizontal asymptote, and sketch the graph of the function. 3 + holes: vertical asymptotes: -intercepts: y-intercept: horizontal asymptote: deg(n) deg(d); therefore, Section 4.4 Rational Functions and Their Graphs 5

+ Eample 5: Let. Find any holes, vertical asymptotes, -intercepts, y- 1 intercept, horizontal asymptote, and sketch the graph of the function. holes: + 1 vertical asymptotes: -intercepts: y-intercept: horizontal asymptote: deg(n) deg(d); therefore, Section 4.4 Rational Functions and Their Graphs 6

3 + Eample 6: Let. Find any holes, vertical asymptotes, -intercepts, y- 4 intercept, horizontal asymptote, and sketch the graph of the function. 3 + 4 holes: vertical asymptotes: -intercepts: y-intercept: horizontal asymptote: deg(n) deg(d); therefore, Section 4.4 Rational Functions and Their Graphs 7

Try this one: Let. Find any holes, vertical asymptotes, -intercepts, y- 1 intercept, horizontal asymptote, and sketch the graph of the function. 1 holes: vertical asymptotes: -intercepts: y-intercept: horizontal asymptote: deg(n) deg(d); therefore, Section 4.4 Rational Functions and Their Graphs 8

2024 © technodocbox.com Privacy Policy | Terms of Service | Feedback