Objectives The student will be able to:

Slides:

Advertisements

Similar presentations

Objectives The student will be able to: 1. find the prime factorization of a number. 2. find the greatest common factor (GCF) for a set of monomials.

Advertisements

Objectives The student will be able to: 1. find the prime factorization of a number. 2. find the greatest common factor (GCF) for a set of monomials. SOL:

Section 5.1 Prime Factorization and Greatest Common Factor.

8.1 Monomials and Factoring Objective Students will be able to: 1. find the prime factorization of a monomial. 2. find the greatest common factor (GCF)

9.1 Factors and Greatest Common Factors What you’ll learn: 1.To find prime factorizations of integers and monomials. 2.To find the greatest common factors.

Factoring – GCF and Grouping

4-2 GCF Greatest Common Factor (GCF) - The largest factor that is the same for a given set of numbers Two methods: 1.) Listing Method or modified listing.

Greatest Common Factor

EXAMPLE 4 Finding the GCF of Monomials

GREATEST COMMON FACTOR

Chapter 5 Factoring.

Objectives The student will be able to: 7A: Find the prime factorization of a number, the greatest common factor (GCF) for a set of monomials and polynomials.

1 Copyright © 2015, 2011, 2007 Pearson Education, Inc. Chapter 5-1 Polynomials and Polynomial Functions Chapter 5.

Chapters 8 and 9 Greatest Common Factors & Factoring by Grouping

Objectives The student will be able to:

Greatest Common Factor The Greatest Common Factor is the largest number that will divide into a group of numbers Examples: 1.6, , 55 GCF = 3 GCF.

Objectives The student will be able to: 1. find the prime factorization of a number. 2. find the greatest common factor (GCF) for a set of monomials. SOL:

Objectives The student will be able to: MFCR Ch. 4-4 GCF and Factoring by Grouping find the greatest common factor (GCF) for a set of monomials.

Objectives The student will be able to: Factor using the greatest common factor (GCF). SOL: A.2c Designed by Skip Tyler, Varina High School.

Factoring using GCF interpret parts of an expressions such as terms, factors, and coefficient.

Factoring using GCF Algebra I. Definitions Prime number – is a whole number whose only factors are itself and one (a number can’t be factored any more)

REMEMBER: What is a factor? What are the factors of 24?

GREATEST COMMON FACTORS

GCF. Warm – Up!!  Good Morning! As you walk in, pick up your calculator and Unit 6 Guided Notes from the podium.  Name 3 prime numbers.  What are the.

 The greatest common factor is the largest factor that two numbers share.  Factors- The number that are multiplied together in a multiplication problem.

Keep in Your Notes!! list the first 15 perfect squares 1² = 2² = 3² =

Factors When two numbers are multiplied, each number is called a factor of the product. List the factors of 18: 18:1, 2, 3, 6, 9, 18 * Calculators: Y =

Factors and the Greatest Common Factor

Topic: Factoring MI: Finding GCF (Greatest Common Factor)

Objectives The student will be able to:

Greatest Common Factor

8.2A Factoring using Distributive Property

Objectives The student will be able to:

Finding GCF SOL A.2c.

Warm Up 1. 50, , 7 3. List the factors of 28. no yes

Objectives The student will be able to: MFCR Ch

Factoring trinomials ax² + bx +c a = 1

Factoring GCF and Trinomials.

10-2 Factoring Using the Distributive Property

Algebra 1 Section 10.1.

Factoring Foundation Ms. Finnegan Algebra 1.

Objectives The student will be able to:

Factors and the Greatest Common Factor

Objectives The student will be able to:

Objectives The student will be able to:

Objectives The student will be able to:

Bell Ringer 10/27/10 What is the GCF? 18x³y² and 24x² ab and a³b².

Warm Up Rewrite -6x + 2x3 + 1 – 9x in standard form, then name by degree & number of terms. 2) Multiply (x + 3)(5x – 1) 3) Multiply (x – 1)(4x2 +5x –

Objectives The student will be able to:

Warm Up 1. Which of the following is an example of the Associative Property? A = B = 9 C. 9( ) = 9(10) + (11) D.

Factoring Polynomials.

Objectives The student will be able to:

Objectives The student will be able to:

Greatest Common Factors & Factoring by Grouping

Objective Factor polynomials by using the greatest common factor.

Objectives The student will be able to:

Problems of the Day Simplify each expression. 1. (x + 3)(x – 9)

Objective Factor polynomials by using the greatest common factor.

Objectives The student will be able to:

Objectives The student will be able to:

Finding GCF SOL A.2c.

Factor A factor of an integer is any integer that divides the given integer with no remainder.

Factoring using the greatest common factor (GCF).

Objectives The student will be able to:

Objectives The student will be able to:

Section 2-1 Factors.

Factoring Polynomials

Objectives The student will be able to:

ALGEBRA I - SECTION 8-2 (Multiplying and Factoring)

Greatest Common Factor

Presentation transcript:

Objectives The student will be able to: 1. find the prime factorization of a number 2. find the greatest common factor (GCF) for a set of monomials 3. factor polynomials using GCF Unit 5 Quadratics Designed by S.Tyler, Edited by L.Jones

A prime number is a number that can only be divided by only one and itself. A composite number is a number greater than one that is not prime. Prime or composite? 37 prime 51 composite

Prime or Composite? 89 Prime Composite Both Neither

1) Find the prime factorization of 84. 84 = 4 • 21 = 2 • 2 • 3 • 7 2) Find the prime factorization of -210. -210 = -1 • 210 = -1 • 30 • 7 = -1 • 6 • 5 • 7 = -1 • 2 • 3 • 5 • 7 Always factor out a (-1)

3) Find the prime factorization of 45a2b3 45a2b3 = 9 • 5 • a • a • b • b • b = 3 • 3 • 5 • a • a • b • b • b = 3 • 3 • 5 • a • a • b • b • b

What is the prime factorization of 48? 3  16 3  4  4 2  2  3  4 2  2  2  2  3

The Greatest Common Factor (GCF) of 2 or more numbers is the largest number that can divide into all of the numbers. 4) Find the GCF of 42 and 60. Write the prime factorization of each number.

4) Find the GCF of 42 and 60. = 2 • 3 • 7 60 = 2 • 2 • 3 • 5 = 2 • 3 • 7 60 = 2 • 2 • 3 • 5 What prime factors do the numbers have in common? We multiply those numbers together because they are FACTORS. The GCF is 2 • 3 = 6 6 is the largest factor that can go into 42 and 60!

5) Find the GCF of 40a2b and 48ab4. 40a2b = 2 • 2 • 2 • 5 • a • a • b 48ab4 = 2 • 2 • 2 • 2 • 3 • a • b • b • b • b What do they have in common? Multiply the factors together. GCF = 8ab

What is the GCF of 48 and 64? 2 4 8 16

Now that we know how to find the GCF, let’s practice factoring it out  The student will be able to: Factor using the greatest common factor (GCF).

Find the GCF of the polynomial Factor out the GCF for each monomial (or term) in the polynomial. This is just like division! Check your answer by distributing the GCF

Review: What is the GCF of 25a2 and 15a? Let’s go one step further… 1) FACTOR 25a2 + 15a. Find the GCF and divide each term 25a2 + 15a = 5a( ___ + ___ ) Check your answer by distributing. 5a 3

2) Factor 18x2 - 12x3. Find the GCF 6x2 Divide each term by the GCF 18x2 - 12x3 = 6x2( ___ - ___ ) Check your answer by distributing. 3 2x

3) Factor 28a2b + 56abc2. GCF = 28ab Divide each term by the GCF 28a2b + 56abc2 = 28ab ( ___ + ___ ) Check your answer by distributing. 28ab(a + 2c2) a 2c2

Factor 20x2 - 24xy x(20 – 24y) 2x(10x – 12y) 4(5x2 – 6xy) 4x(5x – 6y)

5) Factor 28a2 + 21b - 35b2c2 GCF = 7 Divide each term by the GCF Check your answer by distributing. 7(4a2 + 3b – 5b2c2) 4a2 3b 5b2c2

Factor 16xy2 - 24y2z + 40y2 2y2(8x – 12z + 20) 4y2(4x – 6z + 10) 8xy2z(2 – 3 + 5)