Name Date. Analyzing Graphs of Polynomial Functions For use with Exploration 2.7

Similar documents
CHAPTER 2. Polynomial Functions

Name Date. Logarithms and Logarithmic Functions For use with Exploration 3.3

Lesson 4.1 Exercises, pages

2-2: Evaluate and Graph Polynomial Functions

Name Date. Work with a partner. Each graph shown is a transformation of the parent function

Maintaining Mathematical Proficiency

Maintaining Mathematical Proficiency

Graphs of Polynomials: Polynomial functions of degree 2 or higher are smooth and continuous. (No sharp corners or breaks).

(b)complete the table to show where the function is positive (above the x axis) or negative (below the x axis) for each interval.

Daily Lessons and Assessments for AP* Calculus AB, A Complete Course Page 119 Mark Sparks 2012

Maintaining Mathematical Proficiency

Lesson 5.1 Exercises, pages

Solving Polynomial Equations 3.5. Essential Question How can you determine whether a polynomial equation has a repeated solution?

2.1 Evaluate and Graph Polynomial

Name Date. Solving Absolute Value Inequalities For use with Exploration EXPLORATION: Solving an Absolute Value Inequality Algebraically

Lesson 10.1 Solving Quadratic Equations

Polynomials, Linear Factors, and Zeros. Factor theorem, multiple zero, multiplicity, relative maximum, relative minimum

SECTION 4-3 Approximating Real Zeros of Polynomials Polynomial and Rational Functions

PreCalculus Honors: Functions and Their Graphs. Unit Overview. Student Focus. Example. Semester 1, Unit 2: Activity 9. Resources: Online Resources:

Math 1431 Final Exam Review. 1. Find the following limits (if they exist): lim. lim. lim. lim. sin. lim. cos. lim. lim. lim. n n.

ACTIVITY 14 Continued

Section 3.3 Graphs of Polynomial Functions

3.2 Logarithmic Functions and Their Graphs

Lesson 5.6 Exercises, pages

Lesson 8.2 Exercises, pages

Unit 4: Polynomial and Rational Functions

Honors Math 2 Unit 1 Test #2 Review 1

Precalculus Notes: Functions. Skill: Solve problems using the algebra of functions.

MATH 111 Departmental Midterm Exam Review Exam date: Tuesday, March 1 st. Exam will cover sections and will be NON-CALCULATOR EXAM.

Common Core State Standards for Activity 14. Lesson Postal Service Lesson 14-1 Polynomials PLAN TEACH

PACKET Unit 4 Honors ICM Functions and Limits 1

Math 1050 REVIEW for Exam 1. Use synthetic division to find the quotient and the remainder. 1) x3 - x2 + 6 is divided by x + 2

Maintaining Mathematical Proficiency

Review: Properties of Exponents (Allow students to come up with these on their own.) m n m n. a a a. n n n m. a a a. a b a

2 variables. is the same value as the solution of. 1 variable. You can use similar reasoning to solve quadratic equations. Work with a partner.

Module 2, Section 2 Solving Equations

Ready To Go On? Skills Intervention 6-1 Polynomials

Factoring Polynomials

3.5 Graphs of Polynomial Functions

Inverse of a Function

The Fundamental Theorem of Calculus Part 3

Essential Question How can you cube a binomial? Work with a partner. Find each product. Show your steps. = (x + 1) Multiply second power.

LESSON #24 - POWER FUNCTIONS COMMON CORE ALGEBRA II

The Quadratic Formula

Simplifying Rational Expressions

MATH 115: Review for Chapter 5

Math 1050 Final Exam Form A College Algebra Fall Semester Student ID ID Verification Section Number

Section 2.5: Graphs of Functions

3.1 Graphs of Polynomials

Maintaining Mathematical Proficiency

Math 75B Practice Problems for Midterm II Solutions Ch. 16, 17, 12 (E), , 2.8 (S)

The Quadratic Formula VOCABULARY

Lesson 7.1 Polynomial Degree and Finite Differences

Lesson 5: The Graph of the Equation y = f(x)

( ) 7 ( 5x 5 + 3) 9 b) y = x x

MATH Calculus I - Prerequisite Review

Functions and Their Graphs

Function: State whether the following examples are functions. Then state the domain and range. Use interval notation.

Using Intercept Form

Math 111 Final Exam Review KEY

(a) Show that there is a root α of f (x) = 0 in the interval [1.2, 1.3]. (2)

y x is symmetric with respect to which of the following?

If C(x) is the total cost (in dollars) of producing x items of a product, then

Exam 2 Review F15 O Brien. Exam 2 Review:

( ) 9 b) y = x x c) y = (sin x) 7 x d) y = ( x ) cos x

How can you determine the number of solutions of a quadratic equation of the form ax 2 + c = 0? ACTIVITY: The Number of Solutions of ax 2 + c = 0

REVIEW, pages Chapter 1: Polynomial Expressions and Functions Review Solutions DO NOT COPY. P 1.1. Write the division statement.

Writing Equations in Point-Slope Form

5. Determine the discriminant for each and describe the nature of the roots.

4.6 Model Direct Variation

Use Properties of Exponents

Solving Quadratic Equations

Comparing Linear and Nonlinear Functions 5.5. ACTIVITY: Finding Patterns for Similar Figures. How can you recognize when a pattern

Evaluate nth Roots and Use Rational Exponents. p Evaluate nth roots and study rational exponents. VOCABULARY. Index of a radical

Polynomial Functions of Higher Degree

Solution Choose several values for x, and find the corresponding values of (x), or y.

112. x x 114. y x

Polynomial vs. Non-Polynomial Functions Even vs. Odd Functions; End Behavior Read 4.1 Examples 1-3

Unit 2 Polynomial Expressions and Functions Note Package. Name:

Solving Systems of Linear Equations by Graphing

CALCULUS AB SECTION II, Part A

CHAPTER 3 : QUADRARIC FUNCTIONS MODULE CONCEPT MAP Eercise 1 3. Recognizing the quadratic functions Graphs of quadratic functions 4 Eercis

MA Review Worksheet for Exam 1, Summer 2016

LESSON #28 - POWER FUNCTIONS COMMON CORE ALGEBRA II

SECTION 6-3 Systems Involving Second-Degree Equations

2 nd Semester Final Exam Review Block Date

x π. Determine all open interval(s) on which f is decreasing

8.2 Graphing More Complicated Rational Functions

Math 115: Review for Chapter 2

Test #1 Polynomial Functions Mr. Oldridge MHF4U [Created Summer 2011]

The highest degree term is x $, therefore the function is degree 4 (quartic) c) What are the x-intercepts?

20.2 Connecting Intercepts and Linear Factors

Polynomial Functions

Completing the Square

Using Properties of Exponents

SYSTEMS OF THREE EQUATIONS

Name Date Period. Pre-Calculus Midterm Review Packet (Chapters 1, 2, 3)

AP Calculus BC Final Exam Preparatory Materials December 2016

Characteristics of Quadratic Functions

Transcription:

Name Date.7 Analyzing Graphs of Polynomial Functions For use with Eploration.7 Essential Question How many turning points can the graph of a polynomial function have? 1 EXPLORATION: Approimating Turning Points Go to BigIdeasMath.com for an interactive tool to investigate this eploration. Work with a partner. Match each polynomial function with its graph. Eplain your reasoning. Then use a graphing calculator to approimate the coordinates of the turning points of the graph of the function. Round your answers to the nearest hundredth. a. f ( ) = + 3 4 b. f( ) = + 3 + 3 3 c. f ( ) = + 1 d. f( ) = + 5 4 5 e. f ( ) = 3 + 1 f. ( ) f = + 5 + 3 A. 4 B. 4 C. D. 3 7 E. F. 4 4 5

Name Date.7 Analyzing Graphs of Polynomial Functions (continued) Communicate Your Answer. How many turning points can the graph of a polynomial function have? 3. Is it possible to sketch the graph of a cubic polynomial function that has no turning points? Justify your answer.

Name Date.7 Notetaking with Vocabulary For use after Lesson.7 In your own words, write the meaning of each vocabulary term. local maimum local minimum even function odd function Core Concepts Zeros, Factors, Solutions, and Intercepts n n 1 Let f ( ) = an + an 1 + + a1 + a0be a polynomial function. The following statements are equivalent. Notes: Zero: k is a zero of the polynomial function f. Factor: k is a factor of the polynomial f ( ). Solution: k is a solution (or root) of the polynomial equation f ( ) = 0. -Intercept: If k is a real number, then k is an -intercept of the graph of the k,0. polynomial function f. The graph of f passes through ( ) 7

Name Date.7 Notetaking with Vocabulary (continued) The Location Principle If f is a polynomial function, and a and b are two real numbers such that f ( a ) < 0 and f ( b ) > 0, then f has at least one real zero between a and b. Notes: Turning Points of Polynomial Functions 1. The graph of every polynomial function of degree n has at most n 1 turning points.. If a polynomial function has n distinct real zeros, then its graph has eactly n 1 turning points. Notes: 8

Name Date.7 Notetaking with Vocabulary (continued) Even and Odd Functions A function f is an even function when f ( ) = f ( ) for all in its domain. The graph of an even function is symmetric about the y-ais. A function f is an odd function when f ( ) = f ( ) for all in its domain. The graph of an odd function is symmetric about the origin. One way to recognize a graph that is symmetric about the origin is that it looks the same after a 180 rotation about the origin. Even Function Odd Function (, y) y (, y) y (, y) (, y) For an even function, if (, y) is on the For an odd function, if (, y) graph, then (, y) is also on the graph. then (, y) is also on the graph. is on the graph, Notes: 9

Name Date.7 Notetaking with Vocabulary (continued) Practice A Etra Practice In Eercises 1, graph the function. Identify the -intercepts, and the points where the local maimums and local minimums occur. Determine the intervals for which the function is increasing or decreasing. Determine whether the function is even, odd, or neither. 3 4 3 1. f ( ) = 4 1 + 15. ( ) g = + 5 1 10 3 3 3. h ( ) = 13 3 4. ( ) k = g = 1 + 4 3 3 4 3 5. f ( ) = 9 + 100. ( ) 70

Name Date Practice 3.8 BPractice B In Eercises 1 4, graph the function. 1. f( ) = 4( + 3) ( ). g ( ) = 1( 4)( + 3)( ) 3. h 1 ( ) ( 3)( 4)( 8) = + 4. f( ) = ( )( + + ) 5 5. Describe and correct the error in using factors to graph ( ) ( ) 3 f = +. y 0 10 4 10 0 In Eercises 9, find all real zeros of the function. 3. f( ) 8 4 = + 7. ( ) 3 f = + 7 + 10 3 3 8. f( ) = 4 3 3 + 7 9. ( ) f = + 3 + 10 + 15 In Eercises 10 13, graph the function. Identify the -intercepts and the points where the local maimums and local minimums occur. Determine the intervals for which the function is increasing and decreasing. 3 3 10. f( ) = 0.5 3 + 1.5 11. ( ) g = 0.4 3 5 4 3 1. h ( ) = 3 9 13. ( ) f = 3 + 3 + 14. You are making a rectangular bo out of a 1-inch by 8-inch piece of cardboard. The bo will be formed by making the cuts shown in the diagram and folding up the sides. You want the bo to have the greatest volume possible. a. How long should you make the cuts? b. What is the maimum volume? c. What are the dimensions of the finished bo? 1 in. 8 in. 71

7

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