Commutative property.
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Commutative Property of Multiplication. The Commutative Property of Multiplication says that the order that you multiply two numbers does not matter, you'll get the same answer either way (e.g., 7x1 = 7 and 1 x 7 = 7). The Commutative Property of Addition says that the order that you add two numbers does not matter, you'll get the same answer either way (e.g., 7 + 1 = 8 and 1 + 7 = 8). There is NOT a Commutative Property for subtraction, since the order that you subtract two numbers makes a difference (e.g., 7 - 3 = 4, but 3 - 7 = -4...they are not the same!). Likewise, there is NOT a Commutative Property for division, since the order that you divide two numbers makes a difference (e.g., 12/3 = 4, but 3/12 = 0.25...they are not the same!).
Distributive Property: distribute base number, Commutative Property: changing order doesn't change answer, Associative Property: changing gouping doesn't change answer, Identity Property of Addition: any number plus zero equals that number, Identity Property of Multiplication: any number multiplied by one equals that nuber, Zero Property: any number multiplied by zero equals zero
Commutative property: When two numbers are multiplied together, the product is the same regardless of the order of the multiplicands. For example 4 * 2 = 2 * 4Associative Property: When three or more numbers are multiplied, the product is the same regardless of the grouping of the factors. For example (2 * 3) * 4 = 2 * (3 * 4)Multiplicative Identity Property: The product of any number and one is that number. For example 5 * 1 = 5.Distributive property: The sum of two numbers times a third number is equal to the sum of each addend times the third number. For example 4 * (6 + 3) = 4*6 + 4*3Zero property: When you need to multiply 0 you must always put 0 such as0X10=0
Whichever one changes the order of the addends. a + b = b + a
Not in the normal usage of the words. Usually, a number is considered to be a multiple of another number only of there is an integer you can multiply the other number by in order to get the first number. If you allowed multiplication by non-integers, then every number would be a multiple of every other number except zero and the term "multiple" would be fairly useless. So in the normal way of speaking, 39 is not a multiple of 6 because there is no integer (whole number) you can multiply 6 by in order to get 39.