Algebraic Techniques 1 PDF

Summary

This chapter introduces formal algebra, explaining pronumerals, substituting values, equivalent expressions, like terms, and multiplication/division. It also details expanding brackets and various algebraic techniques. Examples and exercises are included to illustrate the concepts.

Full Transcript

360 Chapter 8 Algebraic techniques 1

Chapter
8 8A
Algebraic
techniques 1

What you will learn
Introduction to formal algebra
8B Substituting positive numbers into algebraic expressions
8C Equivalent algebraic expressions
8D Like terms
8E Multiplying, dividing and mixed operations
8F Expanding brackets
8G Applying algebra EXTENSION
8H Substitution involving negative numbers and mixed operations
8I Number patterns EXTENSION
8J Spatial patterns EXTENSION
8K Tables and rules EXTENSION
8L The Cartesian plane and graphs EXTENSION

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 number and algebra 361

nSW Syllabus
for the australian
Curriculum
Strand: number and algebra
Substrand: alGEBRaiC TECHniQuES

Outcome

A student generalises number properties
to operate with algebraic expressions.

(MA4–8NA)

Designing robots
Algebra provides a way to describe everyday activities
using mathematics alone. By allowing letters like x or y
to stand for unknown numbers, different concepts and
relationships can be described easily.
Engineers apply their knowledge of algebra and
geometry to design buildings, roads, bridges, robots, cars,
satellites, planes, ships and hundreds of other structures
and devices that we take for granted in our world today.
To design a robot, engineers use algebraic rules to
express the relationship between the position of the
robot’s ‘elbow’ and the possible positions of a robot’s
‘hand’. Although they cannot think for themselves,
electronically programmed robots can perform tasks
cheaply, accurately and consistently, without ever getting
tired or sick or injured, or the need for sleep or food!
Robots can have multiple arms, reach much farther than a
human arm and can safely lift heavy, awkward objects.
Robots are used extensively in car manufacturing.
Using a combination of robots and humans, Holden’s
car manufacturing plant in Elizabeth, South Australia
fully assembles each car in 76 seconds!
Understanding and applying mathematics has made
car manufacturing safer and also extremely efficient.
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362 Chapter 8 Algebraic techniques 1

pre-test 1 If = 7, write the value of each of the following.

a +4 b –2 c 12 – d 3×

2 Write the value of × 4 if:

a =2 b =9 c = 10 d = 2.5

3 Write the answer to each of the following computations.
a 4 and 9 are added b 3 is multiplied by 7
c 12 is divided by 3 d 10 is halved

4 Write down the following, using numbers and the symbols +, ÷, × and –.
a 6 is tripled b 10 is halved
c 12 is added to 3 d 9 is subtracted from 10

5 For each of the tables, describe the rule relating the input and output numbers. For example:
Output = 2 × input.
a
Input 1 2 3 5 9
Output 3 6 9 15 27

b Input 1 2 3 4 5
Output 6 7 8 9 10

c Input 1 5 7 10 21
Output 7 11 13 16 27

d Input 3 4 5 6 7
Output 5 7 9 11 13

6 If the value of x is 8, find the value of:
a x+3 b x–2 c x×5 d x÷4

7 Find the value of each of the following.
a 4×3+8 b 4 × (3 + 8) c 4×3+2×5 d 4 × (3 + 2) × 5

8 Find the value of each of the following.
a 50 – (3 × 7 + 9) b 24 ÷ 2 – 6 c 24 ÷ 6 – 2 d 24 ÷ (6 – 2)

9 If = 5, write the value of each of the following.
a –4 b ×2–1 c ÷5+2 d × 7 + 10

e × f × ÷ g 3× – 15 h 2

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 number and algebra 363

8A introduction to formal algebra
A pronumeral is a letter that can represent any number. The
choice of letter used is not significant mathematically, but can
be used as an aide to memory. For instance, h might stand for
someone’s height and w might stand for someone’s weight.
The table shows the salary Petra earns for various hours of
work if she is paid $12 an hour.

number of hours Salary earned ($)
1 12 × 1 = 12
2 12 × 2 = 24
3 12 × 3 = 36
n 12 × n = 12n
Rather than writing 12 × n, we write 12n because multiplying
a pronumeral by a number is common and this notation saves
space. We can also write 18 ÷ n as 18.
n Using pronumerals, we can work out a total
salary for any number of hours of work.
let’s start: Pronumeral stories
Ahmed has a jar with b biscuits in it that he is taking to a birthday party. He eats 3 biscuits and then
shares the rest equally among 8 friends. Each friend receives b − 3 biscuits. This is a short story for
8
the expression b − 3.
8
Try to create another story for b − 3 , and share it with others in the class.
8
Can you construct a story for 2t + 12? What about 4(k + 6)?

x + y + 3 is an example of an algebraic expression.

Key ideas

x and y are pronumerals, which are letters that stand for numbers.
In the example x + y + 3, x and y could represent any numbers, so they could be called variables.
a
a × b is written as ab and a ÷ b is written as.
b
A term consists of numbers and pronumerals combined with multiplication or division.
For example, 5 is a term, x is a term, 9a is a term, abc is a term, 4 xyz is a term.
3
A term that does not contain any pronumerals is called a constant term. All numbers by
themselves are constant terms.
An (algebraic) expression consists of numbers and pronumerals combined with any
mathematical operations. For example, 3x + 2yz is an expression and 8 ÷ (3a – 2b) + 41
is also an expression. Any term is also an expression.
A coefficient is the number in front of a pronumeral. For example, the coefficient of y in the
expression 8x + 2y + z is 2. If there is no number in front, then the coefficient is 1, since 1z
and z are equal.

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364   Chapter 8 Algebraic techniques 1

Example 1 The terminology of algebra
a List the individual terms in the expression 3a + b + 13c.
b State the coefficient of each pronumeral in the expression 3a + b + 13c.
c Give an example of an expression with exactly two terms, one of which is a constant term.

Solut ion Explanatio n

a There are three terms: 3a, b and 13c. Each part of an expression is a term.
Terms get added (or subtracted) to make an expression.

b The coefficient of a is 3, the coefficient The coefficient is the number in front of a pronumeral.
of b is 1 and the coefficient of c is 13. For b the coefficient is 1 because b is the same as 1 × b.

c 27a + 19 This expression has two terms, 27a and 19, and 19 is
(There are many other expressions.) a constant term because it is a number without any
pronumerals.

Example 2 Writing expressions from word descriptions
Write an expression for each of the following.
a 5 more than k b 3 less than m c the sum of a and b
d double the value of x e the product of c and d

Solut ion Explanatio n

a k+5 5 must be added to k to get 5 more than k.

b m–3 3 is subtracted from m.

c a+b a and b are added to obtain their sum.

d 2 × x or just 2x x is multiplied by 2. The multiplication sign is optional.

e c × d or just cd c and d are multiplied to obtain their product.

Example 3 Expressions involving more than one operation
Write an expression for each of the following without using the × or ÷ symbols.
a p is halved, then 4 is added
b the sum of x and y is taken and then divided by 7
c the sum of x and one-seventh of y
d 5 is subtracted from k and the result is tripled

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 number and algebra 365

SoluTion ExplanaTion

p p is divided by 2, then 4 is added.
a +4
2
x+y
b ( x + y) ÷ 7 = x and y are added. This whole expression is divided
7
by 7. By writing the result as a fraction, the brackets
are no longer needed.
y 1 y
c x+ or x + y x is added to one-seventh of y, which is.
7 7 7
d (k – 5) × 3 = 3(k – 5) 5 subtracted from k gives the expression k – 5. Brackets
must be used to multiply the whole expression by 3.

Exercise 8A R K I NG
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Example 1 1 The expression 4x + 3y + 24z + 7 has four terms. C
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a List the terms. b What is the constant term?

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c What is the coefficient of x? d Which letter has a coefficient of 24?

Example 2 2 Match each of the word descriptions on the left with the correct mathematical expression on
the right.
a the sum of x and 4 a x-4
x
b 4 less than x B
4
c the product of 4 and x C 4-x
d one-quarter of x D 4x
4
e the result from subtracting x from 4 E
x
f 4 divided by x F x+4

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3 For each of the following expressions, state: C
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i the number of terms; and
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ii the coefficient of n.
a 17n + 24 b 31 – 27a + 15n
4
c 15nw + 21n + 15 d 15a – 32b + xy + 2n
3
d
e n + 51 f 5bn – 12 + + 12n
5

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366 Chapter 8 Algebraic techniques 1 8A

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4 Write an expression for each of the following without using the × or ÷ symbols. C
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a 1 more than x b the sum of k and 5

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c double the value of u d 4 lots of y
e half of p f one-third of q
g 12 less than r h the product of n and 9
i t is subtracted from 10 j y is divided by 8
Example 3 5 Write an expression for each of the following without using the × or ÷ symbols.
a 5 is added to x, then the result is doubled.
b a is tripled, then 4 is added.
c k is multiplied by 8, then 3 is subtracted.
d 3 is subtracted from k, then the result is multiplied by 8.
e The sum of x and y is multiplied by 6.
f x is multiplied by 7 and the result is halved.
g p is halved and then 2 is added.
h The product of x and y is subtracted from 12.

6 Describe each of these expressions in words.
a 7x b a+b c (x + 4) × 2 d 5 – 3a

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7 Nicholas buys 10 lolly bags from a supermarket. C
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a If there are 7 lollies in each bag, how many lollies does he buy in total? M AT I C A

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b If there are n lollies in each bag, how many lollies does he buy in total? Hint: Write an
expression involving n.

8 Mikayla is paid $x per hour at her job. Write an expression for each of the following.
a How much does Mikayla earn if she works 8 hours?
b If Mikayla gets a pay rise of $3 per hour, what is her new hourly wage?
c If Mikayla works for 8 hours at the increased hourly rate, how much does she earn?

9 Recall that there are 100 centimetres in 1 metre and 1000 metres in 1 kilometre. Write expressions for
each of the following.
a How many metres are there in x km?
b How many centimetres are there in x metres?
c How many centimetres are there in x km?

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 Number and Algebra 367  

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10 A group of people go out to a restaurant, and the total amount they must pay is $A. They C
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decide to split the bill equally. Write expressions to answer the following questions.

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a If there are 4 people in the group,
how much do they each pay?
b If there are n people in the group,
how much do they each pay?
c One of the n people has a voucher
that reduces the total bill by $20.
How much does each person pay
now?

a+b
11 There are many different ways of describing the expression in words. One way is ‘The sum of
4
a and b is divided by 4.’ What is another way?

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12 If x is a whole number between 10 and 99, classify each of these statements as true or false. C
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a x must be smaller than 2 × x.

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b x must be smaller than x + 2.
c x – 3 must be greater than 10.
d 4 × x must be an even number.
e 3 × x must be an odd number.

13 If b is an even number greater than 3, classify each of these statements as true or false.
a b + 1 must be even.
b b + 2 could be odd.
c 5 + b could be greater than 10.
d 5b must be greater than b.

14 If c is a number between 10 and 99, sort the following in ascending order (i.e. smallest to largest).
3c, 2c, c – 4, c ÷ 2, 3c + 5, 4c – 2, c + 1, c × c.

Enrichment: Many words compressed
15 One advantage of writing expressions in symbols rather than words is that it takes up less space.
For instance, ‘twice the value of the sum of x and 5’ uses eight words and can be written as
2(x + 5).
Give an example of a worded expression that uses more than 10 words and then write it as a
mathematical expression.

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368 Chapter 8 Algebraic techniques 1

8B Substituting positive numbers into
algebraic expressions
Substitution involves replacing pronumerals (like x and y) with numbers and obtaining a single number as
a result. For example, we can evaluate 4 + x when x is 11, to get 15.

let’s start: Sum to 10
The pronumerals x and y could stand for any
number.
What numbers could x and y stand for if
you know that x + y must equal 10? Try to
list as many pairs as possible.
If x + y must equal 10, what values could
3x + y equal? Find the largest and smallest
values.

To evaluate an expression or to substitute values means to replace each pronumeral in an
Key ideas

expression with a number to obtain a final value. For example, if x = 3 and y = 8, then x + 2y
evaluated gives 3 + 2 × 8 =19.
A term like 4a means 4 × a. When substituting a number we must include the multiplication sign,
since two numbers written as 42 is very different from the product 4 × 2.
Replace all the pronumerals with numbers, then evaluate using the normal order of operations
seen in Chapter 1:
– brackets
– multiplication and division from left to right
– addition and subtraction from left to right.
For example: (4 + 3) × 2 − 20 ÷ 4 + 2 = 7 × 2 − 20 ÷ 4 + 2
= 14 − 5 + 2
= 9+2
= 11

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 Number and Algebra 369  

Example 4 Substituting a pronumeral
Given that t = 5, evaluate:
10
a t+7 b 8t c +4−t
t

Solut ion Explanatio n

a t + 7 = 5+ 7 Replace t with 5 and then evaluate the expression,
= 12 which now contains no pronumerals.

b 8t = 8 × t Insert × where it was previously implied, then
=8×5 substitute in 5. If the multiplication sign is not
= 40 included, we might get a completely incorrect answer
of 85.

10 10 Replace all occurrences of t with 5 before evaluating.
c +4−t = +4−5
t 5 Note that the division (10 ÷ 5) is calculated before the
= 2+4−5 addition and subtraction.
=1

Example 5 Substituting multiple pronumerals
Substitute x = 4 and y = 7 to evaluate these expressions.
a 5x + y + 8
b 80 – (2xy + y)

Solut ion Explanatio n

a 5x + y + 8 = 5 × x + y + 8 Insert the implied multiplication sign between 5 and x
= 5×4+7+8 before substituting the values for x and y.
= 20 + 7 + 8
= 35

b 80 − (2 xy + y ) = 80 − (2 × x × y + y ) Insert the multiplication signs, and remember the order
= 80 − (2 × 4 × 7 + 7) in which to evaluate.
= 80 − (56 + 7)
= 80 − 63
= 17

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 370 Chapter 8 Algebraic techniques 1

Example 6 Substituting with powers and roots
If p = 4 and t = 5, find the value of:
a 3p2 b t 2 + p3 c p 2 + 32

SoluTion ExplanaTion

a 3 p2 = 3 × p × p Note that 3p2 means 3 × p × p, not (3 × p)2.
= 3×4×4
= 48

b t 2 + p 3 = 52 + 4 3 t is replaced with 5, and p is replaced with 4.
= 5× 5+ 4 × 4 × 4 Remember that 43 means 4 × 4 × 4.
= 25 + 64
= 89

c p 2 + 32 = 4 2 + 32 Recall that the square root of 25 must be 5 because
5 × 5 = 25.
= 25
=5

Exercise 8B R K I NG
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1 Use the correct order of operations to evaluate the following. C
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a 4+2×5 b 7–3×2 c 3×6–2×4 d (7 – 3) × 2

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Example 4a 2 What number would you get if you replaced b with 5 in the expression 12 + b?

3 What number is obtained when x = 3 is substituted into the expression 5 × x ?

4 What is the result of evaluating 10 – u if u is 7?

5 Calculate the value of 12 + b if:
a b=5 b b=8 c b = 60 d b=0

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Example 4b,c 6 If x = 5, evaluate each of the following. Set out your solution in a manner similar to that C
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shown in Example 4. M AT I C A
T

a x+3 b x×2 c 14 – x
d 2x + 4 e 3x + 2 – x f 13 – 2x
20
g 2(x + 2) + x h 30 – (4x + 1) i +3
x
10 x+7 10 − x
j ( x + 5) × k l
x 4 x

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 Number and Algebra 371  

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m 7x + 3(x – 1) n 40 – 3x – x o x + x( x + 1) WO
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30 6(3 x − 8) C
p + 2 x ( x + 3) q 100 – 4(3 + 4x) r R PS

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x x+2 M AT I C A

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Example 5 7 Substitute a = 2 and b = 3 into each of these expressions and evaluate.
a 2a + 4 b 3a – 2 c a+b
d 3a + b e 5a – 2b f 7ab + b
g ab – 4 + b h 2 × (3a + 2b) i 100 – (10a + 10b)
12 6 ab 100
j + k +b l
a b 3 a +b
8 Evaluate the expression 5x + 2y when:
a x = 3 and y = 6 b x = 4 and y = 1 c x = 7 and y = 3
d x = 0 and y = 4 e x = 2 and y = 0 f x = 10 and y = 10

9 Copy and complete each of these tables.
a n 1 2 3 4 5 6
n+4 5 8

b x 1 2 3 4 5 6
12 – x 9

c b 1 2 3 4 5 6
2(b – 1)

d q 1 2 3 4 5 6
10q – q

Example 6 10 Evaluate each of the following, given that a = 9, b = 3 and c = 5.
a
a 3c 2 b 5b 2 c a2 – 33 d 2b 2 + – 2c
3
2b 3
e a + 3ab f 2
b +4 2
g 24 + h (2c) – a2
2
6

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11 A number is substituted for b in the expression 7 + b and gives the result 12. What is the C
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value of b?
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M AT I C A
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12 A number is substituted for x in the expression 3x – 1. If the result is a two-digit number, what
value might x have? Try to describe all the possible answers.

13 Copy and complete the table.

x 5 9 12
x+6 11 7
4x 20 24 28

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372 Chapter 8 Algebraic techniques 1 8B

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14 Assume x and y are two numbers, where xy = 24. C
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a What values could x and y equal if they are whole numbers? Try to list as many as possible.

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b What values could x and y equal if they can be decimals, fractions or whole numbers?

15 Dugald substitutes different whole numbers into the expression 5 × (a + a). He notices that the
result always ends in the digit 0. Try a few values and explain why this pattern occurs.

Enrichment: Missing numbers
16 a Copy and complete the following table, in which x and y are whole numbers.

x 5 10 7
y 3 4 5
x+y 9 14 7
x–y 2 3 8
xy 40 10 0

b If x and y are two numbers where x + y and x × y are equal, what values might x and y have?
Try to find at least three (they do not have to be whole numbers).

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 number and algebra 373

8C Equivalent algebraic expressions
In algebra, as when using words, there are often many ways to express the same thing. For example, we
can write ‘the sum of x and 4’ as x + 4 or 4 + x, or even x + 1 + 1 + 1 + 1.
No matter what number x is, x + 4 and 4 + x will always be equal. We say that the expressions
x + 4 and 4 + x are equivalent because of this.
By substituting different numbers for the pronumerals it is possible to see whether two expressions are
equivalent. Consider the four expressions in this table.

3a + 5 2a + 6 7a + 5 – 4a a+a+6

a=0 5 6 5 6

a=1 8 8 8 8

a=2 11 10 11 10

a=3 14 12 14 12

a=4 17 14 17 14

From this table it becomes apparent that 3a + 5 and 7a + 5 – 4a are equivalent, and that 2a + 6 and
a + a + 6 are equivalent.

let’s start: Equivalent expressions
Consider the expression 2a + 4.
Write as many different expressions as possible that are equivalent to 2a + 4.
How many equivalent expressions are there?
Try to give a logical explanation for why 2a + 4 is equivalent to 4 + a × 2.

Two expressions are called equivalent when they are equal, regardless of what numbers are
Key ideas

substituted for the pronumerals.
For example, 5x + 2 is equivalent to 2 + 5x and to 1 + 5x + 1 and to x + 4x + 2.

This collection of pronumerals and numbers can be arranged into many different equivalent expressions.

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374 Chapter 8 Algebraic techniques 1

Example 7 Equivalent expressions
Which two of these expressions are equivalent: 3x + 4, 8 – x, 2x + 4 + x ?

SoluTion ExplanaTion

3x + 4 and 2x + 4 + x are equivalent. By drawing a table of values, we can see straight away
that 3x + 4 and 8 – x are not equivalent, since they differ
for x = 2.
x =1 x =2 x=3
3x + 4 7 10 13
8–x 7 6 5
2x + 4 + x 7 10 13

3x + 4 and 2x + 4 + x are equal for all values, so they are
equivalent.

Exercise 8C R K I NG
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1 a Copy the following table into your workbook and complete. C
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x=0 x=1 x=2 x=3
2x + 2
( x + 1) × 2

b Fill in the gap: 2x + 2 and (x + 1) × 2 are __________ expressions.

2 a Copy the following table into your workbook and complete.

x=0 x=1 x=2 x=3
5x + 3
6x + 3

b Are 5x + 3 and 6x + 3 equivalent expressions?

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3 Show that 6x + 5 and 4x + 5 + 2x are equivalent by completing the table. C
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M AT I C A
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6x + 5 4 x + 5 + 2x
x=1
x=2
x=3
x=4

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 Number and Algebra 375  

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Example 7 4 For each of the following, choose a pair of equivalent expressions. WO
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a 4x, 2x + 4, x + 4 + x C
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b 5a, 4a + a, 3 + a M AT I C A

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c 2k + 2, 3 + 2k, 2(k + 1)
d b + b, 3b, 4b – 2b

5 Match up the equivalent expressions below.
a 3x + 2x A 6 – 3x
b 4 – 3x + 2 B 2x + 4x + x
c 2x + 5 + x C 5x
d x+x–5+x D 4–x
e 7x E 3x + 5
f 4 – 3x + 2x F 3x – 5

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6 Write two different expressions that are equivalent C
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to 4x + 2. M AT I C A

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7 The rectangle shown opposite has a perimeter given
b b
by b + l + b + l. Write an equivalent expression
for the perimeter.

8 There are many expressions that are equivalent to 3a + 5b + 2a – b + 4a. Write an equivalent
expression with as few terms as possible.

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9 The expressions a + b and b + a are equivalent and only contain two terms. How many C
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expressions are equivalent to a + b + c and contain only three terms? Hint: Rearrange the M AT I C A
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pronumerals.

10 Prove that no two of these four expressions are equivalent: 4 + x, 4x, x – 4, x ÷ 4.

11 Generalise each of the following patterns in numbers to give two equivalent expressions. The
first one has been done for you.
a Observation: 3 + 5 = 5 + 3 and 2 + 7 = 7 + 2 and 4 + 11 = 11 + 4.
Generalised: The two expressions x + y and y + x are equivalent.
b Observation: 2 × 5 = 5 × 2 and 11 × 5 = 5 × 11 and 3 × 12 = 12 × 3.
c Observation: 4 × (10 + 3) = 4 × 10 + 4 × 3 and 8 × (100 + 5) = 8 × 100 + 8 × 5.
d Observation: 100 – (4 + 6) = 100 – 4 – 6 and 70 – (10 + 5) = 70 – 10 – 5.
e Observation: 20 – (4 – 2) = 20 – 4 + 2 and 15 – (10 – 3) = 15 – 10 + 3.
f Observation: 100 ÷ 5 ÷ 10 = 100 ÷ (5 × 10) and 30 ÷ 2 ÷ 3 = 30 ÷ (2 × 3).

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376 Chapter 8 Algebraic techniques 1 8C

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12 a Show that the expression 4 × (a + 2) is equivalent to 8 + 4a using a table of values for a U F
between 1 and 4. C
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b Write an expression using brackets that is equivalent to 10 + 5a. M AT I C A

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c Write an expression without brackets that is equivalent to 6 × (4 + a).

Enrichment: Thinking about equivalence
13 3a + 5b is an expression containing two terms. List two expressions containing three terms that
are equivalent to 3a + 5b.

14 Three expressions are given: expression A, expression B and expression C.
a If expressions A and B are equivalent, and expressions B and C are equivalent, does this
mean that expressions A and C are equivalent? Try to prove your answer.
b If expressions A and B are not equivalent, and expressions B and C are not equivalent, does
this mean that expressions A and C are not equivalent? Try to prove your answer.

Each shape above is made from three identically-sized tiles of length l and breadth b. Which of the shapes
have the same perimeter?

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 number and algebra 377

8D like terms
Whenever we have terms with exactly the same pronumerals, they are called ‘like terms’ and can be
collected and combined. For example, 3x + 5x can be simplified to 8x. If the two terms do not have
exactly the same pronumerals, they must be kept separate; for example, 3x + 5y cannot be simplified – it
must be left as it is.

let’s start: Simplifying expressions
Try to find a simpler expression that is equivalent to
1a + 2b + 3a + 4b + 5a + 6b + … + 19a + 20b
What is the longest possible expression that is equivalent to 10a + 20b + 30c?
Assume that all coefficients must be whole numbers greater than zero.
Compare your expressions to see who has the longest one.

Like terms are terms containing exactly the same pronumerals, although not necessarily in

Key ideas

the same order.
– 5ab and 3ab are like terms.
– 4a and 7b are not like terms.
– 2acb and 4bac are like terms.
Like terms can be combined within an expression to create a simpler expression that is
equivalent. For example, 5ab + 3ab can be simplified to 8ab.
If two terms are not like terms (such as 4x and 5y), they can still be added to get an
expression like 4x + 5y, but this expression cannot be simplified further.

Example 8 identifying like terms
Which of the following pairs are like terms?
a 3x and 2x b 3a and 3b c 2ab and 5ba
d 4k and k e 2a and 4ab f 7ab and 9aba

SoluTion ExplanaTion

a 3x and 2x are like terms. The pronumerals are the same.

b 3a and 3b are not like terms. The pronumerals are different.

c 2ab and 5ba are like terms. The pronumerals are the same, even though they are
written in a different order (one a and one b).

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378   Chapter 8 Algebraic techniques 1

d 4k and k are like terms. The pronumerals are the same.

e 2a and 4ab are not like terms. The pronumerals are not exactly the same (the first
term contains only a and the second term has a and b).

f 7ab and 9aba are not like terms. The pronumerals are not exactly the same (the first
term contains one a and one b, but the second term
contains two a terms and one b).

Example 9 Simplifying using like terms
Simplify the following by collecting like terms.
a 7b + 2 + 3b
b 12d – 4d + d
c 5 + 12a + 4b – 2 – 3a
d 13a + 8b + 2a – 5b – 4a
e 12uv + 7v – 3vu + 3v

Solut ion Explanatio n

a 7b + 2 + 3b = 10b + 2 7b and 3b are like terms, so they are combined. They
cannot be combined with 2 because it contains no
pronumerals.

b 12d – 4d + d = 9d All the terms here are like terms. Remember that d
means 1d when combining them.

c 5 + 12a + 4b - 2 - 3a 12a and 3a are like terms. We subtract 3a because it
= 12a - 3a + 4b + 5 - 2 has a minus sign in front of it. We can also combine the
= 9a + 4b + 3 5 and the 2 because they are like terms.

d 13a + 8b + 2a - 5b - 4a Combine like terms, remembering to subtract any term
= 13a + 2a - 4a + 8b - 5b that has a minus sign in front of it.
= 11a + 3b

e 12uv + 7v - 3vu + 3v Combine like terms. Remember that 12uv and 3vu are
= 12uv + 3vu + 7v + 3v like terms (i.e. they have the same pronumerals).
= 9uv + 10v

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 number and algebra 379

Exercise 8D R K I NG
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1 For each of the following terms, state all the pronumerals that occur in it. C
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a 4xy b 3abc c 2k d pq HE
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2 Copy the following sentences into your workbook and fill in the gaps to make the sentences
true. More than one answer might be possible.
a 3x and 5x are ____________ terms.
b 4x and 3y are not ____________ ____________.
c 4xy and 4yx are like ____________.
d 4a and ____________ are like terms.
e x + x + 7 and 2x + 7 are ____________ expressions.
f 3x + 2x + 4 can be written in an equivalent way as ____________.

R K I NG
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Example 8 3 Classify the following pairs as like terms (L) or not like terms (N). C
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a 7a and 4b b 3a and 10a c 18x and 32x M AT I C A

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d 4a and 4b e 7 and 10b f x and 4x
g 5x and 5 h 12ab and 4ab i 7cd and 12cd
j 3abc and 12abc k 3ab and 2ba l 4cd and 3dce

4 Simplify the following by collecting like terms.
a a+a b 3x + 2x c 4b + 3b d 12d – 4d
e 15u – 3u f 14ab – 2ab g 8ab + 3ab h 4xy – 3xy

Example 9 5 Simplify the following by collecting like terms.
a 2a + a + 4b + b b 5a + 2a + b + 8b c 3x – 2x + 2y + 4y
d 4a + 2 + 3a e 7 + 2b + 5b f 3k – 2 + 3k
g 7f + 4 – 2f + 8 h 4a – 4 + 5b + b i 3x + 7x + 3y – 4x + y
j 10a + 3 + 4b – 2a k 4 + 10h – 3h l 10x + 4x + 31y – y
m 10 + 7y – 3x + 5x + 2y n 11a + 4 – 3a + 9 o 3b + 4b + c + 5b – c
p 7ab + 4 + 2ab q 9xy + 2x – 3xy + 3x r 2cd + 5dc – 3d + 2c
s 5uv + 12v + 4uv – 5v t 7pq + 2p + 4qp – q u 7ab + 32 – ab + 4

R K I NG
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6 Ravi and Marissa each work for n hours per week. Ravi earns $27 per hour and Marissa earns C
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$31 per hour.
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a Write an expression for the amount Ravi earns in one week.
b Write an expression for the amount Marissa earns in one week.
c Write a simplified expression for the total amount Ravi and Marissa earn in one week.

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380 Chapter 8 Algebraic techniques 1 8D

R K I NG
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7 The length of the line segment shown could be expressed as a + a + 3 + a + 1. U F
C
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a a 3 a 1

a Write the length in the simplest form.
b What is the length of the segment if a is equal to 5?

8 Let x represent the number of marbles in a
standard-sized bag. Xavier bought
4 bags and Cameron bought 7 bags. Write
simplified expressions for:
a the number of marbles Xavier has
b the number of marbles Cameron has
c the total number of marbles that Xavier
and Cameron have
d the number of extra marbles that
Cameron has compared to Xavier

9 Simplify the following by collecting like
terms.
a 3xy + 4xy + 5xy b 4ab + 5 + 2ab c 5ab + 3ba + 2ab
d 10xy – 4yx + 3 e 10 – 3xy + 8xy + 4 f 3cde + 5ecd + 2ced
g 4 + x + 4xy + 2xy + 5x h 12ab + 7 – 3ab + 2 i 3xy – 2y + 4yx

R K I NG
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10 a Test, using a table of values, that 3x + 2x is equivalent to 5x. C
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b Prove that 3x + 2y is not equivalent to 5xy. HE
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11 a Test that 5x + 4 – 2x is equivalent to 3x + 4.
b Prove that 5x + 4 – 2x is not equivalent to 7x + 4.
c Prove that 5x + 4 – 2x is not equivalent to 7x – 4.

Enrichment: How many rearrangements?
12 The expression a + 3b + 2a is equivalent to 3a + 3b.
a List two other expressions with three terms that are equivalent to 3a + 3b.
b How many expressions, consisting of exactly three terms added together, are equivalent to
3a + 3b? All coefficients must be whole numbers greater than 0.

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 number and algebra 381

8E Multiplying, dividing and mixed operations
To multiply a number by a pronumeral, we have already seen we can write them next to each other. For
example, 7a means 7 × a, and 5abc means 5 × a × b × c. The order in which numbers or pronumerals are
multiplied is unimportant, so 5 × a × b × c = a × 5 × c × b = c × a × 5 × b. When writing a product
without × signs, the numbers are written first.
7 xy
We write as shorthand for (7xy) ÷ (3xz).
3 xz
10 10 5 × 2 2
We can simplify fractions like by dividing by common factors, such as = =.
15 15 5 × 3 3

7 xy 7 xy 7 y
Similarly, common variables can be cancelled in a division like , giving =.
3 xz 3 xz 3z

let’s start: Rearranging terms
5abc is equivalent to 5bac because the order of multiplication does 5 ×a×b×c=?
not matter. In what other ways could 5abc be written?

a × b is written ab.

Key ideas

a
a ÷ b is written.
b
a × a is written a2.

Because of the commutative property of multiplication (e.g. 2 × 7 = 7 × 2), the order in
which values are multiplied is not important. So 3 × a and a × 3 are equivalent.

Because of the associative property of multiplication (e.g. 3 × (5 × 2) and (3 × 5) × 2 are
equal), brackets are not required when only multiplication is used. So 3 × (a × b) and
(3 × a) × b are both written as 3ab.
Numbers should be written first in a term and pronumerals are generally written in
alphabetical order. For example, b × 2 × a is written as 2ab.
When dividing, any common factor in the numerator and denominator can be cancelled.
2
For example: 4 a1b 2a
1 1
=
2 bc c

Example 10 Simplifying expressions with multiplication
a Write 4 × a × b × c without multiplication signs.
b Simplify 4a × 2b × 3c, giving your final answer without multiplication signs.
c Simplify 3w × 4w.
SoluTion ExplanaTion

a 4 × a × b × c = 4abc When pronumerals are written next to each other they
are being multiplied.

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382 Chapter 8 Algebraic techniques 1

b 4a × 2b × 3c = 4 × a × 2 × b × 3 × c First, insert the missing multiplication signs.
=4×2×3×a×b×c Now we can rearrange to bring the numbers to the
front.
= 24abc 4 × 2 × 3 = 24 and a × b × c = abc, giving the final
answer.
c 3w × 4w = 3 × w × 4 × w First, insert the missing multiplication signs.
=3×4×w×w Rearrange to bring numbers to the front.
= 12w2 3 × 4 = 12 and w × w is written as w2.

Example 11 Simplifying expressions with division
a Write (3x + 1) ÷ 5 without a division sign.
8ab
b Simplify the expression.
12b

SoluTion ExplanaTion

3x + 1 The brackets are no longer required as it becomes
a (3x + 1) ÷ 5 =
5 clear that all of 3x + 1 is being divided by 5.

8ab 8 × a × b Insert multiplication signs to help spot common
b =
12b 12 × b factors.
2× 4 ×a× b
= 8 and 12 have a common factor of 4.
3× 4 × b
2a Cancel out the common factors of 4 and b.
=
3

Exercise 8E R K I NG
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1 Chen claims that 7 × d is equivalent to d × 7. C
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a If d = 3, find the values of 7 × d and d × 7. b If d = 5, find the values of 7 × d and d × 7.
LL

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c If d = 8, find the values of 7 × d and d × 7. d Is Chen correct in his claim?

2 Classify each of the following statements as true or false.
a 4 × n can be written as 4n. b n × 3 can be written as 3n.
c 4 × b can be written as b + 4. d a × b can be written as ab.
e a × 5 can be written as 50a.
12 2×6
3 a Simplify the fraction. (Note: This is the same as.)
18 3×6
2000 2 × 1000
b Simplify the fraction. (Note: This is the same as.)
3000 3 × 1000
2a 2×a
c Simplify. (Note: This is the same as.)
3a 3×a

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 Number and Algebra 383  

R K I NG
4 Match up these expressions with the correct way to write them. WO
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a 2×u A 3u C
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5 HE
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b 7×u B
u
c 5÷u C 2u
u
d u×3