1. Home
  2. Contemporary math applications
  3. Helpful topics
  4. Whole numbers
  5. Whole numbers: order of operations

7.6 Whole numbers: order of operations

<< Chapter < Page
  Contemporary math applications     Page 1 / 2
Chapter >> Page >
In a computation in which more than one operation is involved, grouping symbols indicate which operation to perform first.

Grouping symbols

Grouping symbols are used to indicate that a particular collection of numbers and meaningful operations are to be grouped together and considered as one number. The grouping symbols commonly used in mathematics are the following:

Parentheses:  (   )

Brackets:     [   ]

Braces:       {   }

Bar:           —

In a computation in which more than one operation is involved, grouping symbols indicate which operation to perform first. If possible, we perform operations inside grouping symbols first.

For example:

(5 · 5) + 20 = 45

whereas:

5 · (5 + 20) = 125

If there are no parentheses, you should always do multiplications and divisions first followed by additions and subtractions. You can always put your own parentheses into equations using this rule to make things easier for yourself, for example:

a × b + c ÷ d = ( a × b ) + ( c ÷ d ) 5 × 5 + 20 ÷ 4 = ( 5 × 5 ) + ( 20 ÷ 4 ) alignl { stack { size 12{a times b+c div d= \( a times b \) + \( c div d \) } {} #size 12{5 times 5+"20" div 4= \( 5 times 5 \) + \( "20" div 4 \) } {} } } {}

Grouping symbols examples

If possible, determine the value of each of the following.

Example 1

9 + (3 · 8)

Since 3 and 8 are within parentheses, they are to be combined first:

= 9 + 24 size 12{9+"24"} {}

Then add the terms:

= 33 size 12{"33"} {}

Thus, 9 + (3 · 8) = 33.

Example 2

(10 ÷ 0) · 6

Since (10 ÷ 0) is undefined, this operation is meaningless, and we attach no value to it. We write, “meaningless.”

Grouping symbols exercises

If possible, determine the value of each of the following.

16 – (3 · 2)

10

5 + (7 · 9)

61

(4 + 8) · 2

24

28 ÷ (18 – 11)

4

(33 ÷ 3) – 11

0

4 + (0 ÷ 0)

meaningless

Multiple grouping symbols

When a set of grouping symbols occurs inside another set of grouping symbols, we perform the operations within the innermost set first.

Multiple grouping symbol examples

Determine the value of each of the following.

2 + (8 · 3) – (5 + 6)

Combine 8 and 3 first, then combine 5 and 6.

= 2 + 24 – 11

Now combine left to right.

= 26 –11

= 15

  

10 + [ 30 ( 2 9 ) ] size 12{"10"+ \[ "30" - \( 2 cdot 9 \) \] } {}

Combine 2 and 9 since they occur in the innermost set of parentheses.

= 10 + [ 30 18 ] size 12{"10"+ \[ "30" - "18" \] } {}

Now combine 30 and 18.

= 10 + 12

= 22

  

Distributivity

If you see a multiplication outside parentheses like this:

a ( b + c ) 3 ( 4 3 ) alignl { stack { size 12{a \( b+c \) } {} #size 12{3 \( 4 - 3 \) } {} } } {}

then it means you have to multiply each part inside the parentheses by the number outside:

a ( b + c ) = ab + ac 3 ( 4 3 ) = 3 × 4 3 × 3 = 12 9 = 3 alignl { stack { size 12{a \( b+c \) = ital "ab"+ ital "ac"} {} #size 12{3 \( 4 - 3 \) =3 times 4 - 3 times 3="12" - 9=3} {} } } {}

Sometimes you can simplify everything inside the parentheses into a single term. In fact, in the above example, it would have been smarter to have done this:

3 ( 4 3 ) = 3 × ( 1 ) = 3 size 12{3 \( 4 - 3 \) =3 times \( 1 \) =3} {}

This can happen with letters too:

3 ( 4a 3a ) = 3 × ( a ) = 3a size 12{3 \( 4a - 3a \) =3 times \( a \) =3a} {}

The fact that a ( b + c ) = ab + ac size 12{a \( b+c \) = ital "ab"+ ital "ac"} {} is know as the distributive property.

If there are two sets of parentheses multiplied by each other, then you can do it one step at a time:

( a + b ) ( c + d ) = a ( c + d ) + b ( c + d ) = ac + ad + bc + bd ( a + 3 ) ( 4 + d ) = a ( 4 + d ) + 3 ( 4 + d ) = 4a + ad + 12 + 3d alignl { stack { size 12{ \( a+b \) \( c+d \) =a \( c+d \) +b \( c+d \) } {} #size 12{ {}= ital "ac"+ ital "ad"+ ital "bc"+ ital "bd"} {} # size 12{ \( a+3 \) \( 4+d \) =a \( 4+d \) +3 \( 4+d \) } {} #size 12{ {}=4a+ ital "ad"+"12"+3d} {} } } {}

Multiple grouping symbol exercises

Determine the value of each of the following:

( 17 + 8 ) + ( 9 + 20 ) size 12{ \( "17"+8 \) + \( 9+"20" \) } {}

54

( 55 6 ) + ( 13 2 ) size 12{ \( "55" - 6 \) + \( "13" cdot 2 \) } {}

23

23 + ( 12 ÷ 4 ) + ( 11 2 ) size 12{"23"+ \( "12" div 4 \) + \( "11" cdot 2 \) } {}

48

86 + [ 14 + ( 10 8 ) ] size 12{"86"+ \[ "14"+ \( "10" - 8 \) \] } {}

102

31 + ( 9 + [ 1 + ( 35 2 ) ] ) size 12{"31"+ \( 9+ \[ 1+ \( "35" - 2 \) \] \) } {}

74

{6 – [24 ÷ (4 · 2)]} 3

9

Order of operations

Sometimes there are no grouping symbols indicating which operations to perform first. For example, suppose we wish to find the value of 3 + 5 2 size 12{"3 "+" 5" cdot " 2"} {} . We could do either of two things:
<< Chapter < Page Page > Chapter >>

Read also:

Get Jobilize Job Search Mobile App in your pocket Now!

Get it on Google Play Download on the App Store Now




Source:  OpenStax, Contemporary math applications. OpenStax CNX. Dec 15, 2014 Download for free at http://legacy.cnx.org/content/col11559/1.6
Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'Contemporary math applications' conversation and receive update notifications?

Ask