Commutative: Difference between revisions
imported>Doug Williamson (Link with Denominator and Numerator pages.) |
imported>Doug Williamson (Added "exchanging" explicitly) |
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===Multiplication and addition are commutative=== | ===Multiplication and addition are commutative=== | ||
The commutative property of multiplication means that the ordering of the items multiplied together makes no difference to the final result. | The commutative property of multiplication means that exchanging the ordering of the items multiplied together makes no difference to the final result. | ||
====Example 1==== | ====Example 1==== | ||
Revision as of 14:56, 7 October 2015
Maths.
Multiplication and addition are commutative
The commutative property of multiplication means that exchanging the ordering of the items multiplied together makes no difference to the final result.
Example 1
3 x 4 gives the same result as 4 x 3.
In the first case:
3 x 4 = 12
In the second case:
4 x 3 = 12
Example 2
The commutative property also applies to addition.
4 + 5 gives the same final result as 5 + 4.
Both expressions give the result 9.
Division and subtraction are not commutative
The commutative property does not apply to division. The order of items being divided does make a difference to the final result.
Example 3
20 / 4 gives a different result from 4 / 20.
In the first case:
20 / 4 = 5
In the second case:
4 / 20 = 0.2
Example 4
The commutative property does not apply to subtraction.
5 - 3 gives a different result from 3 - 5.
The result of the first expression is +2.
The second expression produces -2.
