Presentation is loading. Please wait.

Presentation is loading. Please wait.

Factorizing expressions

Published byNathalie Thibodeau Modified over 5 years ago

Similar presentations

Presentation on theme: "Factorizing expressions"— Presentation transcript:

1 Factorizing expressions
Factorizing an expression is the opposite of expanding it. Expanding or multiplying out Factorizing a(b + c) ab + ac Often: When we expand an expression we remove the brackets. When we factorize an expression we write it with brackets.

2 Factorizing expressions
Expressions can be factorized by dividing each term by a common factor and writing this outside a pair of brackets. For example, in the expression 5x + 10 the terms 5x and 10 have a common factor, 5. We can write the 5 outside of a set of brackets and mentally divide 5x + 10 by 5. We can write the 5 outside of a set of brackets Encourage pupils to check this by multiplying the expression out to 5x + 10. (5x + 10) ÷ 5 = x + 2 This is written inside the bracket. 5(x + 2) 5(x + 2)

3 Factorizing expressions
Writing 5x + 10 as 5(x + 2) is called factorizing the expression. Factorize 6a + 8 Factorize 12n – 9n2 The highest common factor of 6a and 8 is The highest common factor of 12n and 9n2 is 2. 3n. (6a + 8) ÷ 2 = 3a + 4 (12n – 9n2) ÷ 3n = 4 – 3n Point out that we do not normally show the line involving division. This is done mentally. We can check the answer by multiplying out the bracket. 6a + 8 = 2(3a + 4) 12n – 9n2 = 3n(4 – 3n)

4 Factorizing expressions
Writing 5x + 10 as 5(x + 2) is called factorizing the expression. Factorize 3x + x2 Factorize 2p + 6p2 – 4p3 The highest common factor of 3x and x2 is The highest common factor of 2p, 6p2 and 4p3 is x. 2p. (2p + 6p2 – 4p3) ÷ 2p = (3x + x2) ÷ x = 3 + x 1 + 3p – 2p2 3x + x2 = x(3 + x) 2p + 6p2 – 4p3 = 2p(1 + 3p – 2p2)

5 Factorization Start by asking pupils to give you the value of the highest common factor of the two terms. Reveal this and then ask pupils to give you the values of the terms inside the brackets.

6 Factorization by pairing
Some expressions containing four terms can be factorized by regrouping the terms into pairs that share a common factor. For example, Factorize 4a + ab b Two terms share a common factor of 4 and the remaining two terms share a common factor of b. 4a + ab b = 4a ab + b = 4(a + 1) + b(a + 1) 4(a + 1) and + b(a + 1) share a common factor of (a + 1) so we can write this as (a + 1)(4 + b)

7 Factorization by pairing
Factorize xy – 6 + 2y – 3x We can regroup the terms in this expression into two pairs of terms that share a common factor. When we take out a factor of –3, – 6 becomes + 2 xy – 6 + 2y – 3x = xy + 2y – 3x – 6 = y(x + 2) – 3(x + 2) This expression could also be written as xy – 3x + 2y – 6 to give x(y – 3) + 2(y – 3) = (y – 3)(x + 2) y(x + 2) and – 3(x + 2) share a common factor of (x + 2) so we can write this as (x + 2)(y – 3)

Download ppt "Factorizing expressions"

Similar presentations

Factoring Using the Distributive Property.

Factoring Using the Distributive Property.
Section I: Distributive Property Section II: Order of Operations.

Section I: Distributive Property Section II: Order of Operations.
Algebra Topic Five – Factorising  CM ppt By the end of this session you should: be able to recognise a common factor factorise expressions with common.

Algebra Topic Five – Factorising  CM ppt By the end of this session you should: be able to recognise a common factor factorise expressions with common.
Expanding and Factorising. Expanding Can’tcannot What is ‘expanding’?

Expanding and Factorising. Expanding Can’tcannot What is ‘expanding’?
Expressions and Equations

Expressions and Equations
Expressions and Equations

Expressions and Equations
Slideshow 15 Mathematics Mr Sasaki Room 307 BRACKET EXPANSION AND FACTORISATION.

Slideshow 15 Mathematics Mr Sasaki Room 307 BRACKET EXPANSION AND FACTORISATION.
Starter Revision Worksheet. Factorising is the opposite of expanding – putting brackets back into the expression Note 7: Factorising Brackets.

Starter Revision Worksheet. Factorising is the opposite of expanding – putting brackets back into the expression Note 7: Factorising Brackets.
Demonstrate Basic Algebra Skills

Demonstrate Basic Algebra Skills
Methods and Solving Equations

Methods and Solving Equations
Do Now Find the GCF of each set of numbers. 1)34, 51 2)36, 72 3)21, 42, 56.

Do Now Find the GCF of each set of numbers. 1)34, 51 2)36, 72 3)21, 42, 56.
7 th grade Mathematics - 5 Order of Operation 7 th grade Mathematics - 5 Order of Operation.

7 th grade Mathematics - 5 Order of Operation 7 th grade Mathematics - 5 Order of Operation.
Creating brackets. In this powerpoint, we meet 5 different methods of factorising. Type 1 – Common Factor Type 2 – Difference of Two Squares Type 3 –

Creating brackets. In this powerpoint, we meet 5 different methods of factorising. Type 1 – Common Factor Type 2 – Difference of Two Squares Type 3 –
Factorisation. ab + ad = a( b +……... Multiplying Out Brackets reminder. (1) 6 ( x + 3 ) (2) 3 ( 2x + 5 ) (3) 4 ( 6x + 7 ) (4) 9 ( 3x + 9 ) (5) 2 ( 3x.

Factorisation. ab + ad = a( b +……... Multiplying Out Brackets reminder. (1) 6 ( x + 3 ) (2) 3 ( 2x + 5 ) (3) 4 ( 6x + 7 ) (4) 9 ( 3x + 9 ) (5) 2 ( 3x.
Factor. 1)2x²y – 16xy + 4x 3 y 5 z 2)x² – 16 3)49 – 4y 2 4)a 2 + 9.

Factor. 1)2x²y – 16xy + 4x 3 y 5 z 2)x² – 16 3)49 – 4y 2 4)a
Distributive Property with area models

Distributive Property with area models
STROUD Worked examples and exercises are in the text 1 STROUD Worked examples and exercises are in the text Programme F2: Introduction to algebra PROGRAMME.

STROUD Worked examples and exercises are in the text 1 STROUD Worked examples and exercises are in the text Programme F2: Introduction to algebra PROGRAMME.
AS Mathematics Algebra – Manipulation of brackets.

AS Mathematics Algebra – Manipulation of brackets.
Introduction This chapter focuses on basic manipulation of Algebra It also goes over rules of Surds and Indices It is essential that you understand this.

Introduction This chapter focuses on basic manipulation of Algebra It also goes over rules of Surds and Indices It is essential that you understand this.
Expanding brackets and factorising expressions.. Look at this algebraic expression: 4( a + b ) What do you think it means? Remember, in algebra we do.

Expanding brackets and factorising expressions.. Look at this algebraic expression: 4( a + b ) What do you think it means? Remember, in algebra we do.

Similar presentations

Ads by Google