(1 + 2) + 3 = 1 + (2 + 3)
The associative law states that the order in which elements are grouped does not affect the outcome of an operation. In mathematics, this law is commonly used in addition and multiplication. For example, (a + b) + c is equal to a + (b + c), and (a * b) * c is equal to a * (b * c).
Division (and subtraction, for that matter) is not associative. Here is an example to show that it is not associative: (8/4)/2 = 2/2 = 1 8/(4/2) = 8/2 = 4 Addition and multiplication are the only two arithmetic operations that have the associative property.
No because the associative property can be found in other operations as well.
The Law of 4 Laws of addition and multiplication Commutative laws of addition and multiplication. Associative laws of addition and multiplication. Distributive law of multiplication over addition. Commutative law of addition: m + n = n + m . A sum isn't changed at rearrangement of its addends. Commutative law of multiplication: m · n = n · m . A product isn't changed at rearrangement of its factors. Associative law of addition: ( m + n ) + k = m + ( n + k ) = m + n + k . A sum doesn't depend on grouping of its addends. Associative law of multiplication: ( m · n ) · k = m · ( n · k ) = m · n · k . A product doesn't depend on grouping of its factors. Distributive law of multiplication over addition: ( m + n ) · k = m · k + n · k . This law expands the rules of operations with brackets (see the previous section).
False.
Commutative Law: a + b = b + a Associative Law: (a + b) + c = a + (b + c)
The associative law of addition refers to the fact that numbers can be grouped in different combinations and the answer will still be the same.
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The associative law states that the order in which elements are grouped does not affect the outcome of an operation. In mathematics, this law is commonly used in addition and multiplication. For example, (a + b) + c is equal to a + (b + c), and (a * b) * c is equal to a * (b * c).
Any pair can added first (Only applies for addition)
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Commutative law: The order of the operands doesn't change the result. For example, 4 + 3 = 3 + 4. Associative: (1 + 2) + 3 = 1 + (2 + 3) - it doesn't matter which addition you do first. Both laws are valid for addition, and for multiplication (as these are usually defined, with numbers. However, special "multiplications" have been defined that are not associative, or not commutative - for example, the cross product of vectors, or multiplication of matrices are not commutative.
Assuming that there is a "plus" after the second 58, the answer is - the associative property of addition.
the associative property of addition means that changing the grouping of the addends doesn't affect the sum
The Associative Law of Addition says that changing the grouping of numbers that are added together does not change their sum. This law is sometimes called the Grouping Property. Examples: x + (y + z) = (x + y) + z. Here is an example using numbers where x = 5, y = 1, and z = 7.
It is the associative property of addition.
Division (and subtraction, for that matter) is not associative. Here is an example to show that it is not associative: (8/4)/2 = 2/2 = 1 8/(4/2) = 8/2 = 4 Addition and multiplication are the only two arithmetic operations that have the associative property.