Rational Functions A rational function f(x) is a function that can be written as where p(x) and q(x) are polynomial functions and q(x) 0 . A rational.

Slides:

Advertisements

Similar presentations

9.3 Rational Functions and Their Graphs

Advertisements

Functions AII.7 e Objectives: Find the Vertical Asymptotes Find the Horizontal Asymptotes.

Ch. 9.3 Rational Functions and Their Graphs

Rational Expressions GRAPHING.

Section 5.2 – Properties of Rational Functions

Rational Functions and Their Graphs. Example Find the Domain of this Function. Solution: The domain of this function is the set of all real numbers not.

Objectives: Find the domain of a Rational Function Determine the Vertical Asymptotes of a Rational Function Determine the Horizontal or Oblique Asymptotes.

Section 7.2.  A rational function, f is a quotient of polynomials. That is, where P(x) and Q(x) are polynomials and Q(x) ≠ 0.

ACT Class Openers:

Rational Functions. 5 values to consider 1)Domain 2)Horizontal Asymptotes 3)Vertical Asymptotes 4)Holes 5)Zeros.

Rational Functions 4-2.

Today in Pre-Calculus Go over homework Notes: Homework

9.3 Rational Functions and Their Graphs Rational Function – A function that is written as, where P(x) and Q(x) are polynomial functions. The domain of.

Graphing Rational Functions. Copyright © by Houghton Mifflin Company, Inc. All rights reserved. xf(x)f(x) xf(x)f(x)

Introducing Oblique Asymptotes Horizontal Asymptote Rules: – If numerator and denominator have equal highest power, simplified fraction is the H.A. – If.

Graphing Rational Functions. 2 xf(x)f(x) xf(x)f(x) As x → 0 –, f(x) → -∞.

Section 5.2 Properties of Rational Functions

Class Work Find the real zeros by factoring. P(x) = x4 – 2x3 – 8x + 16

Section 2.6 Rational Functions Hand out Rational Functions Sheet!

Chapter 7 Polynomial and Rational Functions with Applications Section 7.2.

Rational Functions and Their Graphs

Graphing Rational Functions Digital Lesson. Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 2 xf(x)f(x)

Definition: A rational function is a function that can be written where p(x) and q(x) are polynomials. 8) Graph Steps to graphing a rational function.

Horizontal & Vertical Asymptotes Today we are going to look further at the behavior of the graphs of different functions. Now we are going to determine.

Chapter 3 Polynomial and Rational Functions Copyright © 2014, 2010, 2007 Pearson Education, Inc Rational Functions and Their Graphs.

Section 2.7. Graphs of Rational Functions Slant/Oblique Asymptote: in order for a function to have a slant asymptote the degree of the numerator must.

Algebra 2 Ch.9 Notes Page 67 P Rational Functions and Their Graphs.

Rational Functions A function of the form where p(x) and q(x) are polynomial functions and q(x) ≠ 0. Examples: (MCC9-12.F.IF.7d)

Copyright © 2011 Pearson Education, Inc. Publishing as Prentice Hall.

2-6 rational functions.  Lines l and m are perpendicular lines that intersect at the origin. If line l passes through the point (2,-1), then line m must.

Table of Contents Rational Expressions and Functions where P(x) and Q(x) are polynomials, Q(x) ≠ 0. Example 1: The following are examples of rational expressions:

Rational Functions and Domains where P(x) and Q(x) are polynomials, Q(x) ≠ 0. A rational expression is given by.

Limits at Infinity: End behavior of a Function

Rational Functions and their Graphs. Definition Rational Function A rational function f(x) is a function that can be written as where P(x) and Q(x) are.

CHAPTER 9 SECTION 3 RATIONAL FUNCTIONS AND GRAPHS Algebra 2 Notes May 21, 2009.

GRAPHING RATIONAL FUNCTIONS. Warm Up 1) The volume V of gas varies inversely as the pressure P on it. If the volume is 240 under pressure of 30. Write.

Rational Functions. 6 values to consider 1)Domain 2)Horizontal Asymptotes 3)Vertical Asymptotes 4)Holes 5)Zeros 6)Slant Asymptotes.

Asymptotes of Rational Functions 1/21/2016. Vocab Continuous graph – a graph that has no breaks, jumps, or holes Discontinuous graph – a graph that contains.

Lesson 21 Finding holes and asymptotes Lesson 21 February 21, 2013.

Graphing Rational Functions Digital Lesson. Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 2 xf(x)f(x)

Calculus Section 2.5 Find infinite limits of functions Given the function f(x) = Find =  Note: The line x = 0 is a vertical asymptote.

8.2 The Reciprocal Function Family Honors. The Reciprocal Functions The Reciprocal function f(x) = x ≠0 D: {x|x ≠ 0} R: {y|y ≠ 0} Va: x = 0 Ha: y = 0.

Rational Functions…… and their Graphs

Aim: What are the rational function and asymptotes?

Rational Functions and Models

Horizontal Asymptotes

4.4 Rational Functions A Rational Function is a function whose rule is the quotient of two polynomials. i.e. f(x) = 1

Copyright © 2014, 2010, 2007 Pearson Education, Inc.

Rational Functions and Their Graphs

GRAPHING RATIONAL FUNCTIONS

Rational Functions p(x) and q(x) are polynomials, with.

8.2 Rational Functions and Their Graphs

28 – The Slant Asymptote No Calculator

Graphing Polynomial Functions

3.5: ASYMPTOTES.

Section 5.2 – Properties of Rational Functions

Graphing Rational Functions

Graphing Rational Functions

Appendix A.4 Rational Expression.

2.6 Section 2.6.

HW Answers: D: {x|x ≠ -5} VA: none Holes: (-5, -10) HA: none Slant: y = x – D: {x|x ≠ -1, 2} VA: x = 2 Holes: (-1, 4/3) HA: y = 2 Slant: None.

Asymptotes Horizontal Asymptotes Vertical Asymptotes

Domain, Range, Vertical Asymptotes and Horizontal Asymptotes

Warm Up – 12/4 - Wednesday Rationalize: − 5.

Section 8.4 – Graphing Rational Functions

Graphing Rational Functions

EQ: What other functions can be made from

Properties of Rational Functions

Graphing Rational Functions

Presentation transcript:

Rational Functions A rational function f(x) is a function that can be written as where p(x) and q(x) are polynomial functions and q(x) 0 . A rational function can have more than one vertical asymptote, but it can have at most one horizontal asymptote.

Vertical Asymptotes If p(x) and q(x) have no common factors, then f(x) has vertical asymptote(s) when q(x) = 0. Thus the graph has vertical asymptotes at the zeros of the denominator.

Vertical Asymptotes Find the vertical asymptote of V.A. is x = a, where a represents real zeros of q(x). Find the vertical asymptote of Example: Since the zeros are 1 and -1. Thus the vertical asymptotes are x = 1 and x = -1.

Horizontal Asymptotes A rational function f(x) is a function that can be written as where p(x) and q(x) are polynomial functions and q(x) 0 . The horizontal asymptote is determined by looking at the degrees of p(x) and q(x).

Horizontal Asymptotes If the degree of p(x) is less than the degree of q(x), then the horizontal asymptote is y = 0. b. If the degree of p(x) is equal to the degree of q(x), then the horizontal asymptote is c. If the degree of p(x) is greater than the degree of q(x), then there is no horizontal asymptote.

Horizontal Asymptotes deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. Example: Find the horizontal asymptote: Degree of numerator = 1 Degree of denominator = 2 Since the degree of the numerator is less than the degree of the denominator, horizontal asymptote is y = 0.

Horizontal Asymptotes deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. Example: Find the horizontal asymptote: Degree of numerator = 1 Degree of denominator = 1 Since the degree of the numerator is equal to the degree of the denominator, horizontal asymptote is .

Horizontal Asymptotes deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. Example: Find the horizontal asymptote: Degree of numerator = 2 Degree of denominator = 1 Since the degree of the numerator is greater than the degree of the denominator, there is no horizontal asymptote.

Vertical & Horizontal Asymptotes V.A. : x = a, where a represents real zeros of q(x). H.A. : deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. Practice: Find the vertical and horizontal asymptotes: Answer Now

Vertical & Horizontal Asymptotes V.A. : x = a, where a represents real zeros of q(x). deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. H.A. : Practice: Find the vertical and horizontal asymptotes: V.A. : x = H.A.: none

Vertical & Horizontal Asymptotes V.A. : x = a, where a represents real zeros of q(x). H.A. : deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. Practice: Find the vertical and horizontal asymptotes: Answer Now

Vertical & Horizontal Asymptotes V.A. : x = a, where a represents real zeros of q(x). H.A. : deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. Practice: Find the vertical and horizontal asymptotes: V.A. : none H.A.: y = 0 is not factorable and thus has no real roots.

Vertical & Horizontal Asymptotes V.A. : x = a, where a represents real zeros of q(x). H.A. : deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. Practice: Find the vertical and horizontal asymptotes: Answer Now

Vertical & Horizontal Asymptotes V.A. : x = a, where a represents real zeros of q(x). H.A. : deg of p(x) < deg of q(x), then H.A. is y = 0 deg of p(x) = deg of q(x), then H.A. is deg of p(x) > deg of q(x), then no H.A. Practice: Find the vertical and horizontal asymptotes: V.A. : x = -1 H.A.: y = 2