No, the expressions 6 times 2 and 4 times 3 are not examples of the commutative property. The commutative property states that the order of the numbers being multiplied does not affect the result, such as 2 times 3 being the same as 3 times 2. In this case, 6 times 2 is not equal to 4 times 3, so it does not demonstrate the commutative property.
Commutative Property of Multiplication.
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This is called the commutative property of multiplication. Like addition, the order of the numbers does not matter: the product is the same.Compare this with subtraction and division which are not commutative.
2+3=3=2 commutative
That is the Commutative Property.
Commutative Property of Multiplication.
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Commutative Property of Multiplication
This is called the commutative property of multiplication. Like addition, the order of the numbers does not matter: the product is the same.Compare this with subtraction and division which are not commutative.
2+3=3=2 commutative
5*23*2 = 23*5*2 (commutative property)= 23*(5*2) (associative property) = 23*10 = 230.
Commutative.
The Commutative Property of Addition. It also works for multiplication: 3 times 2 is equal to 2 times 3.
The commutative property of addition. The commutative property of addition states, "x + y = y + x"
That is the Commutative Property.
Commutative property: When two numbers are added, the sum is the same regardless of the order of the addends. For example 4 + 2 = 2 + 4
The term "commutative" in mathematics refers to operations that satisfy the property of moving elements back and forth without affecting the result. For example, in addition, 2 + 3 = 3 + 2 because addition is commutative.