Presentation is loading. Please wait.

Presentation is loading. Please wait.

Polynomial and Rational Functions

Published byLouise Kennedy Modified over 8 years ago

Similar presentations

Presentation on theme: "Polynomial and Rational Functions"— Presentation transcript:

1 Polynomial and Rational Functions
Lesson 2.3

2 Animated Cartoons Note how mathematics are referenced in the creation of cartoons

3 This lesson studies polynomials
Animated Cartoons We need a way to take a number of points and make a smooth curve This lesson studies polynomials

4 Polynomials General polynomial formula
a0, a1, … ,an are constant coefficients n is the degree of the polynomial Standard form is for descending powers of x anxn is said to be the “leading term” Note that each term is a power function

5 Family of Polynomials Constant polynomial functions
f(x) = a Linear polynomial functions f(x) = m x + b Quadratic polynomial functions f(x) = a x2 + b x + c

6 Family of Polynomials Cubic polynomial functions
f(x) = a x3 + b x2 + c x + d Degree 3 polynomial Quartic polynomial functions f(x) = a x4 + b x3 + c x2+ d x + e Degree 4 polynomial

7 Properties of Polynomial Functions
If the degree is n then it will have at most n – 1 turning points End behavior Even degree Odd degree or or

8 Properties of Polynomial Functions
Even degree Leading coefficient positive Leading coefficient negative Odd degree

9 Rational Function: Definition
Consider a function which is the quotient of two polynomials Example: Both polynomials

10 Long Run Behavior Given
The long run (end) behavior is determined by the quotient of the leading terms Leading term dominates for large values of x for polynomial Leading terms dominate for the quotient for extreme x

11 Example Given Graph on calculator
Set window for -100 < x < 100, -5 < y < 5

12 Example Note the value for a large x
How does this relate to the leading terms?

13 Try This One Consider Which terms dominate as x gets large
What happens to as x gets large? Note: Degree of denominator > degree numerator Previous example they were equal

14 When Numerator Has Larger Degree
Try As x gets large, r(x) also gets large But it is asymptotic to the line

15 Summarize Given a rational function with leading terms When m = n
Horizontal asymptote at When m > n Horizontal asymptote at 0 When n – m = 1 Diagonal asymptote

16 Vertical Asymptotes A vertical asymptote happens when the function R(x) is not defined This happens when the denominator is zero Thus we look for the roots of the denominator Where does this happen for r(x)?

17 Vertical Asymptotes Finding the roots of the denominator
View the graph to verify

18 Assignment Lesson 2.3 Page 91 Exercises 3 – 59 EOO

Download ppt "Polynomial and Rational Functions"

Similar presentations

Polynomial Functions and Models Lesson 4.2. Review General polynomial formula a 0, a 1, …,a n are constant coefficients n is the degree of the polynomial.

Polynomial Functions and Models Lesson 4.2. Review General polynomial formula a 0, a 1, …,a n are constant coefficients n is the degree of the polynomial.
Functions AII.7 e 2009. Objectives: Find the Vertical Asymptotes Find the Horizontal Asymptotes.

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

Horizontal Vertical Slant and Holes
Rational Expressions, Vertical Asymptotes, and Holes.

Rational Expressions, Vertical Asymptotes, and Holes.
Ch. 9.3 Rational Functions and Their Graphs

Ch. 9.3 Rational Functions and Their Graphs
Short Run Behavior of Rational Functions Lesson 9.5.

Short Run Behavior of Rational Functions Lesson 9.5.
Objective Video Example by Mrs. G Give It a Try Lesson 9.3  Graph rational function that cannot be written in transformational form.

Objective Video Example by Mrs. G Give It a Try Lesson 9.3  Graph rational function that cannot be written in transformational form.
Real Zeros of Polynomial Functions Lesson 4.4. Division of Polynomials Can be done manually See Example 2, pg 253 Calculator can also do division Use.

Real Zeros of Polynomial Functions Lesson 4.4. Division of Polynomials Can be done manually See Example 2, pg 253 Calculator can also do division Use.
Section 5.2 – Properties of Rational Functions

Section 5.2 – Properties of Rational Functions
2.7 – Graphs of Rational Functions. By then end of today you will learn about……. Rational Functions Transformations of the Reciprocal function Limits.

2.7 – Graphs of Rational Functions. By then end of today you will learn about……. Rational Functions Transformations of the Reciprocal function Limits.
ACT Class Openers: http://sbstjohn.com/QODWebSite/PlaneGeom/plane_1213_f003.htm http://sbstjohn.com/QODWebSite/PreElemAlg/alg_1213_f166.htm.

ACT Class Openers:
Complex Numbers Lesson 3.3.

Complex Numbers Lesson 3.3.
Infinite Limits and Limits to Infinity: Horizontal and Vertical Asymptotes.

Infinite Limits and Limits to Infinity: Horizontal and Vertical Asymptotes.
Algebra of Limits Assume that both of the following limits exist and c and is a real number: Then:

Algebra of Limits Assume that both of the following limits exist and c and is a real number: Then:
Polynomials and Rational Functions (2.1)

Polynomials and Rational Functions (2.1)
A Summary of Curve Sketching Lesson 4.6. How It Was Done BC (Before Calculators) How can knowledge of a function and it's derivative help graph the function?

A Summary of Curve Sketching Lesson 4.6. How It Was Done BC (Before Calculators) How can knowledge of a function and it's derivative help graph the function?
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.

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.
Nonlinear Functions and their Graphs Lesson 4.1. Polynomials General formula a 0, a 1, …,a n are constant coefficients n is the degree of the polynomial.

Nonlinear Functions and their Graphs Lesson 4.1. Polynomials General formula a 0, a 1, …,a n are constant coefficients n is the degree of the polynomial.
Rational Functions and Models Lesson 4.6. Definition Consider a function which is the quotient of two polynomials Example: Both polynomials.

Rational Functions and Models Lesson 4.6. Definition Consider a function which is the quotient of two polynomials Example: Both polynomials.
Introducing Oblique Asymptotes Horizontal Asymptote Rules: – If numerator and denominator have equal highest power, simplified fraction is the H.A. – If.

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

Similar presentations

Ads by Google