What is factorising?
Factorising is the inverse of expanding brackets.
The function machines below demonstrate this.
Example
Factorise 6t + 10.
To factorise, look for a number which is a factor of both 6 and 10 (that is why it is called 鈥榝actorising鈥).
Two is a factor of both numbers so 2 goes in front of the bracket.
袄(2(鈥︹赌︹赌)
Divide 6t by 2 to get the first term inside the bracket.
\(2(3t 鈥︹)
The + does not change and the last term is \(10 梅 2 = 5\)
\(2(3t + 5)\)
Check that this is correct by multiplying out.
\(2(3t + 5) = 6t + 10鉁揬)
To factorise fully, it is important to find the highest common factor (HCF) of the terms.
Example
Factorise this expression:
\(54 鈥 18x + 36y\)
First find the HCF of 54, 18 and 36 which is 18.
This means that 18 goes in front of the bracket.
The terms inside the bracket are found by dividing each one by 18.
\(54 鈥 18x + 36y = 18(3 鈥 x + 2y)\)
Check that this is correct by multiplying out.
\(18(3 鈥 x + 2y) = 54 鈥 18x + 36y 鉁揬)
If we had used a smaller factor of 54, for example 9, the expression would not be fully factorised.
When factorising, always use the HCF of the terms.
Question
Factorise the expression \(32m + 40n 鈥 16\).
Answer
The HCF is 8.
\(32m + 40n 鈥 16 = 8(4m +5n -2)\)
Check that this is correct by multiplying out.
\(8(4m + 5n 鈥 2) = 32m + 40n -16 鉁揬)
Example
Factorise this expression:
\(x^2 鈥 2x\)
First find the HCF of \(x^2\) and \(2x\) which is \(x\).
This means that \(x\) goes in front of the bracket.
The terms inside the bracket are found by dividing each one by \(x\).
\(x^2 鈥 2x = x(x 鈥 2)\)
Check that this is correct by multiplying out.
\(x(x 鈥 2) = x^2 鈥 2x 鉁揬)
More complex factorising
Example
Factorise the expression \(6mn + 4m^2n 鈥 2mn^2\)
In the expression, there are 3 different types of terms 鈥 numbers, terms in m and terms in n.
We need to find the HCF for each of these.
Numbers: HCF of 6, 4 and 2 is 2.
Terms in m: HCF is m.
Terms in n : HCF is n.
HCF for the expression is 2mn.
\(6mn + 4m^2n 鈥 2mn^2 = 2mn (3 + 2m 鈥 n)\)
Check that this is correct by multiplying out.
\(2mn (3 + 2m 鈥 n) = 6mn + 4m^2n 鈥 2mn^2 鉁揬)
Question
Factorise this expression:
\(4pq^2 鈥 16 p^2q^2 鈥 18 pq\)
Answer
\(2pq (2q 鈥 8pq 鈥 9)\)
Test section
Factorise the following expressions:
Question 1
\(56t 鈥 8\)
Answer
The correct answer is \(8(7t 鈥 1)\)
Question 2
\(15y 鈥 9xy\)
Answer
The correct answer is \(3y(5 鈥 3x)\)
Question 3
\(100gh + 20g^2h^2 鈥 15 g^2h\)
Answer
The correct answer is \(5gh(20 + 4gh -3g)\)
Question 4
\(12wx^2 鈥 4w^2x + 8w^2\)
Answer
The correct answer is \(4w(3x^2 鈥 wx +2w)\)
Question 5
\(15p^3+ 27p^2q + 42 pq^2\)
Answer
The correct answer is \(3p(5p^2 + 9pq + 14q^2)\)
More on Algebra
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