Answer:
The answer is the commutative postulate for multiplication.
Step-by-step explanation:
The commutative postulate for multiplication means that the factors can be multiplied in any order and that the product is always the same. This is the property that can be observed in this case. By multiplying 6 and 12 you get 72. And if you multiply 12 and 6 you can see that you get the same result, 72.
Multiplication by one always results in that same number. In this case you do not have a multiplication by one.
The additive inverse of a number is the number you add to another so that the sum is zero. The additive inverse of a number is equal and opposite in sign to add zero. For example, the additive inverse of the positive number 2 is -2, then 2 + (-2) = 0.
The commutative property for addition indicates that the numbers that make up the operation can change the order in which they are presented, without altering the result. An example is adding 3 + 2 and 2 + 3, where the result of both sums is 5, regardless of the order in which it is added.
The distributive postulate indicates that the multiplication of a number by a sum is equal to the sum of the multiplications of that number by each of the addends. For example:
2 x (3 + 5) = 2 x 8 = 16
2 x 3 + 2 x 5 = 6 + 10 = 16
Both accounts result in 16, so the distributive property of multiplication is demonstrated.
In the addition of zero postulate, as zero is a neutral element, any number "a", added with 0 results in "a". For example: 25 + 0 = 25
The multiplication inverse indicates that whenever a number "n" is multiplied by its inverse (the inverse of a 1 / n number), this operation will result in the number one: [tex]n*\frac{1}{n} =1[/tex]
