Presentation is loading. Please wait.

Presentation is loading. Please wait.

4.2 – Synthetic Division. Just as with real numbers, we can use division in regards to polynomials Two different methods; we will focus on what is known.

Published byAron Lynch Modified over 9 years ago

Similar presentations

Presentation on theme: "4.2 – Synthetic Division. Just as with real numbers, we can use division in regards to polynomials Two different methods; we will focus on what is known."— Presentation transcript:

1 4.2 – Synthetic Division

2 Just as with real numbers, we can use division in regards to polynomials Two different methods; we will focus on what is known as Synthetic Division

3 Division Alogorithm If p(x) and d(x) are polynomials, and d(x) has a lesser degree (or equal) to p(x), then there exists polynomials q(x) and r(x) such that: p(x) = q(x) * d(x) + r(x) – r(x) is the remainder

4 If we divide two polynomials, then there will exist a new polynomial, and possibly a remainder To help facitilate faster division, we can use division similar to “long” division

5 Synthetic Division Synthetic division can be used to divide the polynomial f(x) = a n x n + a n-1 x n-1 + … + a 1 x + a 0 by x – k To use synthetic division, we do the following: – Pull out all coefficients of powers – Fill in missing powers with 0 – Use a simple algorithm – Rewrite new polynomial with powers and coefficients still left

6 A polynomial is considered a zero, if and only if, the remainder is zero Otherwise, not a zero Think of as a “speed-factoring” Algorithm: Drag down, multiply, add to next column, repeat

7 Example. Determine if the given k is zero of the following polynomial. If not, find p(k) p(x) = -2x 4 + 11x 3 – 5x 2 – 3x + 15; k = 5 (x – 5) – List out all coefficients of the powers in order

8 Pull out the remaining coefficients; this is now your “factored” polynomial with the x – 5 (x – k).

9 Example. Determine if the given k is zero of the following polynomial. If not, find p(k). p(x) = x 4 – 1; k = 1

10 Example. Determine if the given k is zero of the following polynomial. If not, find p(k). p(x) = x 2 – 6x + 13

11 Assignment Pg. 320 19-37 odd

12

Download ppt "4.2 – Synthetic Division. Just as with real numbers, we can use division in regards to polynomials Two different methods; we will focus on what is known."

Similar presentations

Dividing Polynomials.

Dividing Polynomials.
Chapter 2 Polynomial and Rational Functions Copyright © 2014, 2010, 2007 Pearson Education, Inc. 1 2.4 Dividing Polynomials: Remainder and Factor Theorems.

Chapter 2 Polynomial and Rational Functions Copyright © 2014, 2010, 2007 Pearson Education, Inc Dividing Polynomials: Remainder and Factor Theorems.
5-4 Dividing Polynomials Long Division Today’s Objective: I can divide polynomials.

5-4 Dividing Polynomials Long Division Today’s Objective: I can divide polynomials.
Dividing Polynomials Section 2.4. Objectives Divide two polynomials using either long division or synthetic division. Use the Factor Theorem to show that.

Dividing Polynomials Section 2.4. Objectives Divide two polynomials using either long division or synthetic division. Use the Factor Theorem to show that.
Dividing Polynomials; Remainder and Factor Theorems.

Dividing Polynomials; Remainder and Factor Theorems.
Bell Problem Find the real number solutions of the equation: 18x 3 = 50x.

Bell Problem Find the real number solutions of the equation: 18x 3 = 50x.
Remainder and Factor Theorem Unit 11. Definitions Roots and Zeros: The real number, r, is a zero of f(x) iff: 1.) r is a solution, or root of f(x)=0 2.)

Remainder and Factor Theorem Unit 11. Definitions Roots and Zeros: The real number, r, is a zero of f(x) iff: 1.) r is a solution, or root of f(x)=0 2.)
3.3: Dividing Polynomials: Remainder and Factor Theorems Long Division of Polynomials 1.Arrange the terms of both the dividend and the divisor in descending.

3.3: Dividing Polynomials: Remainder and Factor Theorems Long Division of Polynomials 1.Arrange the terms of both the dividend and the divisor in descending.
6.8 Synthetic Division. Polynomial Division, Factors, and Remainders In this section, we will look at two methods to divide polynomials: long division.

6.8 Synthetic Division. Polynomial Division, Factors, and Remainders In this section, we will look at two methods to divide polynomials: long division.
Lesson 2.4, page 301 Dividing Polynomials Objective: To divide polynomials using long and synthetic division, and to use the remainder and factor theorems.

Lesson 2.4, page 301 Dividing Polynomials Objective: To divide polynomials using long and synthetic division, and to use the remainder and factor theorems.
Polynomial Division, Factors, and Remainders ©2001 by R. Villar All Rights Reserved.

Polynomial Division, Factors, and Remainders ©2001 by R. Villar All Rights Reserved.
9.4 Polynomial Division ©2006 by R. Villar All Rights Reserved.

9.4 Polynomial Division ©2006 by R. Villar All Rights Reserved.
Long Division Algorithm and Synthetic Division!!!

Long Division Algorithm and Synthetic Division!!!
2.5 Apply the Remainder and Factor Theorems p. 120 How do you divide polynomials? What is the remainder theorem? What is the difference between synthetic.

2.5 Apply the Remainder and Factor Theorems p. 120 How do you divide polynomials? What is the remainder theorem? What is the difference between synthetic.
5.4 – Apply the Remainder and Factor Theorems Divide 247 / 3 8829 / 8.

5.4 – Apply the Remainder and Factor Theorems Divide 247 / / 8.
6.5 The Remainder and Factor Theorems p. 352 How do you divide polynomials? What is the remainder theorem? What is the difference between synthetic substitution.

6.5 The Remainder and Factor Theorems p. 352 How do you divide polynomials? What is the remainder theorem? What is the difference between synthetic substitution.
Copyright © 2009 Pearson Education, Inc. CHAPTER 4: Polynomial and Rational Functions 4.1 Polynomial Functions and Models 4.2 Graphing Polynomial Functions.

Copyright © 2009 Pearson Education, Inc. CHAPTER 4: Polynomial and Rational Functions 4.1 Polynomial Functions and Models 4.2 Graphing Polynomial Functions.
1 What we will learn today…  How to divide polynomials and relate the result to the remainder and factor theorems  How to use polynomial division.

1 What we will learn today…  How to divide polynomials and relate the result to the remainder and factor theorems  How to use polynomial division.
 PERFORM LONG DIVISION WITH POLYNOMIALS AND DETERMINE WHETHER ONE POLYNOMIAL IS A FACTOR OF ANOTHER.  USE SYNTHETIC DIVISION TO DIVIDE A POLYNOMIAL BY.

 PERFORM LONG DIVISION WITH POLYNOMIALS AND DETERMINE WHETHER ONE POLYNOMIAL IS A FACTOR OF ANOTHER.  USE SYNTHETIC DIVISION TO DIVIDE A POLYNOMIAL BY.
The Remainder and Factor Theorems 6.5 p. 352. When you divide a Polynomial f(x) by a divisor d(x), you get a quotient polynomial q(x) with a remainder.

The Remainder and Factor Theorems 6.5 p When you divide a Polynomial f(x) by a divisor d(x), you get a quotient polynomial q(x) with a remainder.

Similar presentations

Ads by Google