Foundations
10 Properties of Real Numbers
Learning Objectives
By the end of this section, you will be able to:
 Use the commutative and associative properties
 Use the identity and inverse properties of addition and multiplication
 Use the properties of zero
 Simplify expressions using the distributive property
A more thorough introduction to the topics covered in this section can be found in the Prealgebra chapter, The Properties of Real Numbers.
Use the Commutative and Associative Properties
Think about adding two numbers, say 5 and 3. The order we add them doesn’t affect the result, does it?
The results are the same.
As we can see, the order in which we add does not matter!
What about multiplying
Again, the results are the same!
The order in which we multiply does not matter!
These examples illustrate the commutative property. When adding or multiplying, changing the order gives the same result.
When adding or multiplying, changing the order gives the same result.
The commutative property has to do with order. If you change the order of the numbers when adding or multiplying, the result is the same.
What about subtraction? Does order matter when we subtract numbers? Does give the same result as
The results are not the same.
Since changing the order of the subtraction did not give the same result, we know that subtraction is not commutative.
Let’s see what happens when we divide two numbers. Is division commutative?
The results are not the same.
Since changing the order of the division did not give the same result, division is not commutative. The commutative properties only apply to addition and multiplication!
 Addition and multiplication are commutative.
 Subtraction and Division are not commutative.
If you were asked to simplify this expression, how would you do it and what would your answer be?
Some people would think and then Others might start with and then
Either way gives the same result. Remember, we use parentheses as grouping symbols to indicate which operation should be done first.
Add . Add. 

Add . Add. 

When adding three numbers, changing the grouping of the numbers gives the same result.
This is true for multiplication, too.
Multiply. Multiply. 

Multiply. . Multiply. 

When multiplying three numbers, changing the grouping of the numbers gives the same result.
You probably know this, but the terminology may be new to you. These examples illustrate the associative property.
When adding or multiplying, changing the grouping gives the same result.
Let’s think again about multiplying We got the same result both ways, but which way was easier? Multiplying and first, as shown above on the right side, eliminates the fraction in the first step. Using the associative property can make the math easier!
The associative property has to do with grouping. If we change how the numbers are grouped, the result will be the same. Notice it is the same three numbers in the same order—the only difference is the grouping.
We saw that subtraction and division were not commutative. They are not associative either.
When simplifying an expression, it is always a good idea to plan what the steps will be. In order to combine like terms in the next example, we will use the commutative property of addition to write the like terms together.
Simplify:
Use the commutative property of addition to reorder so that like terms are together.  
Add like terms. 
Simplify:
Simplify:
When we have to simplify algebraic expressions, we can often make the work easier by applying the commutative or associative property first, instead of automatically following the order of operations. When adding or subtracting fractions, combine those with a common denominator first.
Simplify:
Notice that the last 2 terms have a common denominator, so change the grouping.  
Add in parentheses first.  
Simplify the fraction.  
Add.  
Convert to an improper fraction. 
Simplify:
Simplify:
Use the associative property to simplify
Change the grouping.  
Multiply in the parentheses. 
Notice that we can multiply but we could not multiply 3x without having a value for x.
Use the associative property to simplify 8(4x).
32x
Use the associative property to simplify
Use the Identity and Inverse Properties of Addition and Multiplication
What happens when we add 0 to any number? Adding 0 doesn’t change the value. For this reason, we call 0 the additive identity.
For example,
These examples illustrate the Identity Property of Addition that states that for any real number and
What happens when we multiply any number by one? Multiplying by 1 doesn’t change the value. So we call 1 the multiplicative identity.
For example,
These examples illustrate the Identity Property of Multiplication that states that for any real number and
We summarize the Identity Properties below.
Notice that in each case, the missing number was the opposite of the number!
We call the additive inverse of a. The opposite of a number is its additive inverse. A number and its opposite add to zero, which is the additive identity. This leads to the Inverse Property of Addition that states for any real number Remember, a number and its opposite add to zero.
What number multiplied by gives the multiplicative identity, 1? In other words, times what results in 1?
What number multiplied by 2 gives the multiplicative identity, 1? In other words 2 times what results in 1?
Notice that in each case, the missing number was the reciprocal of the number!
We call the multiplicative inverse of a. The reciprocal of number is its multiplicative inverse. A number and its reciprocal multiply to one, which is the multiplicative identity. This leads to the Inverse Property of Multiplication that states that for any real number
We’ll formally state the inverse properties here:
of addition  For any real number , is the additive inverse of . A number and its opposite add to zero. 

of multiplication  For any real number , is the multiplicative inverse of . A number and its reciprocal multiply to one. 
Find the additive inverse of ⓐ ⓑ ⓒ ⓓ
To find the additive inverse, we find the opposite.
 ⓐ The additive inverse of is the opposite of The additive inverse of is
 ⓑ The additive inverse of 0.6 is the opposite of 0.6. The additive inverse of 0.6 is
 ⓒ The additive inverse of is the opposite of We write the opposite of as and then simplify it to 8. Therefore, the additive inverse of is 8.
 ⓓ The additive inverse of is the opposite of We write this as and then simplify to Thus, the additive inverse of is
Find the additive inverse of: ⓐ ⓑ ⓒ ⓓ
ⓐⓑⓒⓓ
Find the additive inverse of: ⓐ ⓑ ⓒ ⓓ
ⓐⓑⓒⓓ
Find the multiplicative inverse of ⓐ ⓑ ⓒ
To find the multiplicative inverse, we find the reciprocal.
 ⓐ The multiplicative inverse of 9 is the reciprocal of 9, which is Therefore, the multiplicative inverse of 9 is
 ⓑ The multiplicative inverse of is the reciprocal of which is Thus, the multiplicative inverse of is
 ⓒ To find the multiplicative inverse of 0.9, we first convert 0.9 to a fraction, Then we find the reciprocal of the fraction. The reciprocal of is So the multiplicative inverse of 0.9 is
Find the multiplicative inverse of ⓐ ⓑ ⓒ
ⓐⓑⓒ
Find the multiplicative inverse of ⓐ ⓑ ⓒ
ⓐⓑⓒ
Use the Properties of Zero
The identity property of addition says that when we add 0 to any number, the result is that same number. What happens when we multiply a number by 0? Multiplying by 0 makes the product equal zero.
For any real number a.
The product of any real number and 0 is 0.
What about division involving zero? What is Think about a real example: If there are no cookies in the cookie jar and 3 people are to share them, how many cookies does each person get? There are no cookies to share, so each person gets 0 cookies. So,
We can check division with the related multiplication fact.
So we know because
For any real number a, except and
Zero divided by any real number except zero is zero.
Now think about dividing by zero. What is the result of dividing 4 by 0? Think about the related multiplication fact: means Is there a number that multiplied by 0 gives 4? Since any real number multiplied by 0 gives 0, there is no real number that can be multiplied by 0 to obtain 4.
We conclude that there is no answer to and so we say that division by 0 is undefined.
For any real number a, except 0, and are undefined.
Division by zero is undefined.
We summarize the properties of zero below.
Multiplication by Zero: For any real number a,
The product of any number and 0 is 0. 
Division of Zero, Division by Zero: For any real number
Zero divided by any real number except itself is zero.  
Division by zero is undefined. 
Simplify: ⓐ ⓑ ⓒ
ⓐ The product of any real number and 0 is 0. 

ⓑ The product of any real number and 0 is 0. 

ⓒ Division by 0 is undefined. 
Simplify: ⓐ ⓑ ⓒ
ⓐ 0 ⓑ 0 ⓒ undefined
Simplify: ⓐ ⓑ ⓒ
ⓐ 0 ⓑ 0 ⓒ undefined
We will now practice using the properties of identities, inverses, and zero to simplify expressions.
Simplify: ⓐ where ⓑ where
ⓐ Zero divided by any real number except itself is 0. 

ⓑ Division by 0 is undefined. 
Simplify:
Notice that the first and third terms are opposites; use the commutative property of addition to reorder the terms. 

Add left to right.  
Add. 
Simplify:
Simplify:
Now we will see how recognizing reciprocals is helpful. Before multiplying left to right, look for reciprocals—their product is 1.
Simplify:
Notice that the first and third terms are reciprocals, so use the commutative property of multiplication to reorder the factors. 

Multiply left to right.  
Multiply. 
Simplify:
Simplify:
Simplify: ⓐ where ⓑ where
ⓐ 0 ⓑ undefined
Simplify: ⓐ ⓑ
ⓐ 0 ⓑ undefined
Simplify:
There is nothing to do in the parentheses, so multiply the two fractions first—notice, they are reciprocals. 

Simplify by recognizing the multiplicative identity. 
Simplify:
Simplify:
Simplify Expressions Using the Distributive Property
Suppose that three friends are going to the movies. They each need ?9.25—that’s 9 dollars and 1 quarter—to pay for their tickets. How much money do they need all together?
You can think about the dollars separately from the quarters. They need 3 times ?9 so ?27, and 3 times 1 quarter, so 75 cents. In total, they need ?27.75. If you think about doing the math in this way, you are using the distributive property.
Back to our friends at the movies, we could find the total amount of money they need like this:
In algebra, we use the distributive property to remove parentheses as we simplify expressions.
For example, if we are asked to simplify the expression the order of operations says to work in the parentheses first. But we cannot add x and 4, since they are not like terms. So we use the distributive property, as shown in (Figure).
Simplify:
Distribute.  
Multiply. 
Simplify:
Simplify:
Some students find it helpful to draw in arrows to remind them how to use the distributive property. Then the first step in (Figure) would look like this:
Simplify:
Distribute.  
Multiply. 
Simplify:
Simplify:
Using the distributive property as shown in (Figure) will be very useful when we solve money applications in later chapters.
Simplify:
Distribute.  
Multiply. 
Simplify:
Simplify:
When we distribute a negative number, we need to be extra careful to get the signs correct!
Simplify:
Distribute.  
Multiply. 
Simplify:
Simplify:
Simplify:
Distribute.  
Multiply.  
Simplify. 
Notice that you could also write the result as Do you know why?
Simplify:
Simplify:
(Figure) will show how to use the distributive property to find the opposite of an expression.
Simplify:
Multiplying by −1 results in the opposite.  
Distribute.  
Simplify.  
Simplify:
Simplify:
There will be times when we’ll need to use the distributive property as part of the order of operations. Start by looking at the parentheses. If the expression inside the parentheses cannot be simplified, the next step would be multiply using the distributive property, which removes the parentheses. The next two examples will illustrate this.
Simplify:
Be sure to follow the order of operations. Multiplication comes before subtraction, so we will distribute the 2 first and then subtract.
Distribute.  
Multiply.  
Combine like terms. 
Simplify:
Simplify:
Simplify:
Distribute.  
Combine like terms. 
Simplify:
Simplify:
All the properties of real numbers we have used in this chapter are summarized in (Figure).
Commutative Property  
of addition If are real numbers, then of multiplication If are real numbers, then 

Associative Property  
of addition If are real numbers, then of multiplication If are real numbers, then 

Distributive Property  
If are real numbers, then  
Identity Property  
of addition For any real number 0 is the additive identity of multiplication For any real number is the multiplicative identity 

Inverse Property  
of addition For any real number is the additive inverse of of multiplication For any real number is the multiplicative inverse of 

Properties of Zero  
For any real number a, For any real number For any real number 
is undefined 
Key Concepts
 Commutative Property of
 Addition: If are real numbers, then
 Multiplication: If are real numbers, then When adding or multiplying, changing the order gives the same result.
 Associative Property of
 Addition: If are real numbers, then
 Multiplication: If are real numbers, then
When adding or multiplying, changing the grouping gives the same result.
 Distributive Property: If are real numbers, then
 Identity Property
 of Addition: For any real number
0 is the additive identity  of Multiplication: For any real number
is the multiplicative identity
 of Addition: For any real number
 Inverse Property
 of Addition: For any real number A number and its opposite add to zero. is the additive inverse of
 of Multiplication: For any real number A number and its reciprocal multiply to one. is the multiplicative inverse of
 Properties of Zero
 For any real number
– The product of any real number and 0 is 0.  for – Zero divided by any real number except zero is zero.
 is undefined – Division by zero is undefined.
 For any real number
Practice Makes Perfect
Use the Commutative and Associative Properties
In the following exercises, use the associative property to simplify.
3(4x)
12x
4(7m)
In the following exercises, simplify.
17(0.25)(4)
17
36(0.2)(5)
[2.48(12)](0.5)
14.88
[9.731(4)](0.75)
7(4a)
28a
9(8w)
10p
Use the Identity and Inverse Properties of Addition and Multiplication
In the following exercises, find the additive inverse of each number.
ⓐ
ⓑ 4.3
ⓒ
ⓓ
ⓐⓑⓒ 8 ⓓ
ⓐ
ⓑ 2.1
ⓒ
ⓓ
ⓐ
ⓑ
ⓒ 23
ⓓ
ⓐⓑ 0.075 ⓒ ⓓ
ⓐ
ⓑ
ⓒ 52
ⓓ
In the following exercises, find the multiplicative inverse of each number.
ⓐ 6 ⓑ ⓒ 0.7
ⓐⓑⓒ
ⓐ 12 ⓑ ⓒ 0.13
ⓐⓑⓒ
ⓐⓑⓒ
ⓐⓑⓒ
Use the Properties of Zero
In the following exercises, simplify.
0
0
0
0
Mixed Practice
In the following exercises, simplify.
44
id
where
0
where
where
0
where
where
undefined
where
where
undefined
where
Simplify Expressions Using the Distributive Property
In the following exercises, simplify using the distributive property.
Everyday Math
Insurance copayment Carrie had to have 5 fillings done. Each filling cost ?80. Her dental insurance required her to pay 20% of the cost as a copay. Calculate Carrie’s copay:
 ⓐ First, by multiplying 0.20 by 80 to find her copay for each filling and then multiplying your answer by 5 to find her total copay for 5 fillings.
 ⓑ Next, by multiplying [5(0.20)](80)
 ⓒ Which of the properties of real numbers says that your answers to parts (a), where you multiplied 5[(0.20)(80)] and (b), where you multiplied [5(0.20)](80), should be equal?
ⓐ ?80 ⓑ ?80 ⓒ answers will vary
Cooking time Helen bought a 24pound turkey for her family’s Thanksgiving dinner and wants to know what time to put the turkey in to the oven. She wants to allow 20 minutes per pound cooking time. Calculate the length of time needed to roast the turkey:
 ⓐ First, by multiplying to find the total number of minutes and then multiplying the answer by to convert minutes into hours.
 ⓑ Next, by multiplying
 ⓒ Which of the properties of real numbers says that your answers to parts (a), where you multiplied and (b), where you multiplied should be equal?
Buying by the case Trader Joe’s grocery stores sold a bottle of wine they called “Two Buck Chuck” for ?1.99. They sold a case of 12 bottles for ?23.88. To find the cost of 12 bottles at ?1.99, notice that 1.99 is
 ⓐ Multiply 12(1.99) by using the distributive property to multiply
 ⓑ Was it a bargain to buy “Two Buck Chuck” by the case?
ⓐ ?23.88 ⓑ no, the price is the same
Multipack purchase Adele’s shampoo sells for ?3.99 per bottle at the grocery store. At the warehouse store, the same shampoo is sold as a 3 pack for ?10.49. To find the cost of 3 bottles at ?3.99, notice that 3.99 is
 ⓐ Multiply 3(3.99) by using the distributive property to multiply
 ⓑ How much would Adele save by buying 3 bottles at the warehouse store instead of at the grocery store?
Writing Exercises
In your own words, state the commutative property of addition.
Answers may vary
What is the difference between the additive inverse and the multiplicative inverse of a number?
Simplify using the distributive property and explain each step.
Answers may vary
Explain how you can multiply 4(?5.97) without paper or calculator by thinking of ?5.97 as and then using the distributive property.
Self Check
ⓐ After completing the exercises, use this checklist to evaluate your mastery of the objectives of this section.
ⓑ After reviewing this checklist, what will you do to become confident for all objectives?
Glossary
 additive identity
 The additive identity is the number 0; adding 0 to any number does not change its value.
 additive inverse
 The opposite of a number is its additive inverse. A number and it additive inverse add to 0.
 multiplicative identity
 The multiplicative identity is the number 1; multiplying 1 by any number does not change the value of the number.
 multiplicative inverse
 The reciprocal of a number is its multiplicative inverse. A number and its multiplicative inverse multiply to one.