Algebra

Substitute to complete a table of values

Substitute into algebraic expressions I

Multiply algebraic terms

Divide algebraic terms

Perform mixed operations with algebraic terms

Substitute into algebraic expressions II

Substitute into common formulae

Substitution resulting in an equation

Multiply algebraic terms with negatives

Divide algebraic terms with negatives

Mixed operations with algebraic terms (incl negatives)

Distributive law I

Distributive law (non-linear terms)

Build algebraic expressions

Factor numeric factors

Rewriting expressions

Equivalent expressions

Algebra in measurement

Simplify algebraic expressions involving distributive law

Substitute into algebraic expressions

Multiply algebraic terms with indices

Divide algebraic terms with indices

Simplify non- linear algebraic expressions

Distributive law II

Simplify non-linear algebraic expressions involving distributive law

Expand binomial expressions

Factor algebraic terms

Problem solving

Simplify further algebraic expressions I

Expand further binomial expressions

Expand perfect squares

Expand difference of two squares

Factorise algebraic factors

LCD with rational expressions

Simplify algebraic fractions

Multiply and divide algebraic fractions

Mixed Operations with Algebraic Fractions

Simplify further algebraic expressions II

Expand further algebraic expressions

Simplify Expressions with Absolute Values

Class VIII

Factorise algebraic factors

Lesson

We've previously learnt how to factorise both algebraic and numeric terms from expressions. Now we are going to look at expressions where the highest common factor (HCF) may consist of more than one pronumeral, or even a linear factor. Let's look at some examples below.

Example 1

Factorise $6pqr+18pqz$6pqr+18pqz

$6p^2qr+18pqz$6`p`2`qr`+18`pqz`	$=$=	$6\left(p^2qr+3pqz\right)$6(`p`2`qr`+3`pqz`) Take out the highest numerical factor
	$=$=	$6pq\left(pr+3z\right)$6`pq`(`pr`+3`z`) Take out the highest common powers of each pronumeral

Since there was a $q$q present in both terms, as well as a single power of $p$p, we were able to pull both of these out of the expression as factors.

More examples

Question 1

Factorise the following expression by taking out the highest common factor:

$9x^2y^2z-18xyz$9x2y2z−18xyz

Question 2

Factorise the following expression:

$pqr+p^2q^2r+p^3q^3r$pqr+p2q2r+p3q3r

Question 3

Factorise $6r^3tv+9r^2t^2v^3-12rt^3v^2$6r3tv+9r2t2v3−12rt3v2.

Outcomes

8.A.AE.1

Multiplication and division of algebraic exp.(Coefficient should be integers)

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