Rewriting Expressions Using the Commutative and Associative Properties
Learning Outcomes
- Identify the associative and commutative properties of addition and multiplication
- Use the associative and commutative properties of addition and multiplication to rewrite algebraic expressions
Use the Commutative and Associative Properties
Think about adding two numbers, such as [latex]5[/latex] and [latex]3[/latex].[latex]\begin{array}{cccc}\hfill 5+3\hfill & & & \hfill 3+5\hfill \\ \hfill 8\hfill & & & \hfill 8\hfill \end{array}[/latex]
The results are the same. [latex]5+3=3+5[/latex] Notice, the order in which we add does not matter. The same is true when multiplying [latex]5[/latex] and [latex]3[/latex].[latex]\begin{array}{cccc}\hfill 5\cdot 3\hfill & & & \hfill 3\cdot 5\hfill \\ \hfill 15\hfill & & & \hfill 15\hfill \end{array}[/latex]
Again, the results are the same! [latex]5\cdot 3=3\cdot 5[/latex]. The order in which we multiply does not matter. These examples illustrate the commutative properties of addition and multiplication.Commutative Properties
Commutative Property of Addition: if [latex]a[/latex] and [latex]b[/latex] are real numbers, then[latex]a+b=b+a[/latex]
Commutative Property of Multiplication: if [latex]a[/latex] and [latex]b[/latex] are real numbers, then
[latex]a\cdot b=b\cdot a[/latex]
example
Use the commutative properties to rewrite the following expressions: 1. [latex]-1+3=[/latex] 2. [latex]4\cdot 9=[/latex] Solution:| 1. | |
| [latex]-1+3=[/latex] | |
| Use the commutative property of addition to change the order. | [latex]-1+3=3+\left(-1\right)[/latex] |
| 2. | |
| [latex]4\cdot 9=[/latex] | |
| Use the commutative property of multiplication to change the order. | [latex]4\cdot 9=9\cdot 4[/latex] |
try it
[ohm_question]145966[/ohm_question] [ohm_question]145968[/ohm_question][latex]\begin{array}{ccc}\hfill 7 - 3\hfill & & \hfill 3 - 7\hfill \\ \hfill 4\hfill & & \hfill -4\hfill \\ & \hfill 4\ne -4\hfill & \end{array}[/latex] The results are not the same. [latex]7 - 3\ne 3 - 7[/latex]
Since changing the order of the subtraction did not give the same result, we can say that subtraction is not commutative. Let’s see what happens when we divide two numbers. Is division commutative?[latex]\begin{array}{ccc}\hfill 12\div 4\hfill & & \hfill 4\div 12\hfill \\ \hfill \frac{12}{4}\hfill & & \hfill \frac{4}{12}\hfill \\ \hfill 3\hfill & & \hfill \frac{1}{3}\hfill \\ & \hfill 3\ne \frac{1}{3}\hfill & \end{array}[/latex]
The results are not the same. So [latex]12\div 4\ne 4\div 12[/latex] Since changing the order of the division did not give the same result, division is not commutative. Addition and multiplication are commutative. Subtraction and division are not commutative. Suppose you were asked to simplify this expression.[latex]7+8+2[/latex]
How would you do it and what would your answer be? Some people would think [latex]7+8\text{ is }15[/latex] and then [latex]15+2\text{ is }17[/latex]. Others might start with [latex]8+2\text{ makes }10[/latex] and then [latex]7+10\text{ makes }17[/latex]. Both ways give the same result, as shown below. (Remember that parentheses are grouping symbols that indicate which operations should be done first.)
When adding three numbers, changing the grouping of the numbers does not change the result. This is known as the Associative Property of Addition.
The same principle holds true for multiplication as well. Suppose we want to find the value of the following expression:
[latex]5\cdot \frac{1}{3}\cdot 3[/latex]
Changing the grouping of the numbers gives the same result.
When multiplying three numbers, changing the grouping of the numbers does not change the result. This is known as the Associative Property of Multiplication.
If we multiply three numbers, changing the grouping does not affect the product.
You probably know this, but the terminology may be new to you. These examples illustrate the Associative Properties.
Associative Properties
Associative Property of Addition: if [latex]a,b[/latex], and [latex]c[/latex] are real numbers, then[latex]\left(a+b\right)+c=a+\left(b+c\right)[/latex]
Associative Property of Multiplication: if [latex]a,b[/latex], and [latex]c[/latex] are real numbers, then[latex]\left(a\cdot b\right)\cdot c=a\cdot \left(b\cdot c\right)[/latex]
example
Use the associative properties to rewrite the following: 1. [latex]\left(3+0.6\right)+0.4=[/latex] 2. [latex]\left(-4\cdot \frac{2}{5}\right)\cdot 15=[/latex]Answer: Solution:
| 1. | |
| [latex]\left(3+0.6\right)+0.4=[/latex] | |
| Change the grouping. | [latex]\left(3+0.6\right)+0.4=3+\left(0.6+0.4\right)[/latex] |
| 2. | |
| [latex]\left(-4\cdot \frac{2}{5}\right)\cdot 15=[/latex] | |
| Change the grouping. | [latex]\left(-4\cdot \frac{2}{5}\right)\cdot 15=-4\cdot \left(\frac{2}{5}\cdot 15\right)[/latex] |
try it
[ohm_question]145970[/ohm_question] [ohm_question]145971[/ohm_question]example
Use the Associative Property of Multiplication to simplify: [latex]6\left(3x\right)[/latex].Answer: Solution:
| [latex]6\left(3x\right)[/latex] | |
| Change the grouping. | [latex]\left(6\cdot 3\right)x[/latex] |
| Multiply in the parentheses. | [latex]18x[/latex] |
try it
[ohm_question]145973[/ohm_question]Licenses & Attributions
CC licensed content, Original
- Question ID 145973, 145970, 145971, 145966, 145968. Authored by: Lumen Learning. License: CC BY: Attribution.
CC licensed content, Shared previously
- Use the Commutative and Associate Properties of Real Numbers. Authored by: James Sousa (Mathispower4u.com). License: CC BY: Attribution.
CC licensed content, Specific attribution
- Prealgebra. Provided by: OpenStax License: CC BY: Attribution. License terms: Download for free at http://cnx.org/contents/[email protected].
