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| Commutative Property (Addition of Whole Numbers) Commutative Property (Addition of Integers) | Commutative Property (Addition of Whole Numbers) | Commutative Property (Division of integers) | Commutative Property (Division of Whole Numbers) | Commutative Property (Multipication of Integers) | Commutative Property (Multipication of Whole Numbers) | Commutative Property (Subtraction of Integers) | Commutative Property (Subtraction of Whole Numbers) | Explanation :-
Addition is Commutative for Whole Numbers, this means that even if we change the order of numbers in addition expression, the result remains same. This property is also known as Commutativity for Addition of Whole numbers
Commutative Property for Addition of Whole Numbers can be further understood with the help of following examples :-
Example 1 = Explain Commutative Property for addition of whole numbers 5 & 7 in addition expression ?
Answer = Given Whole Numbers = 5, 7 and their two orders are as follows :-
Order 1 = 5 + 7 = 12
Order 2 = 7 + 5 = 12
As, in both the orders the result is same i.e 12
So, we can say that Addition is Commutative for Whole Numbers.
Example 2 = Explain Commutative Property for addition of whole numbers 23 & 43 in addition expression ?
Answer = Given Whole Numbers = 23, 43 and their two orders are as follows :-
Order 1 = 23 + 43 = 66
Order 2 = 43 + 23 = 66
As, in both the orders the result is same i.e 66
So, we can say that Addition is Commutative for Whole Numbers.
Example 3 = Explain Commutative Property for addition of whole numbers 20 & 4.
Answer = Given Whole numbers = 20, 4 and their two orders are as follows :-
Order 1 = 20 + 4 = 24
Order 2 = 4 + 20 = 24
As, in both the orders the result is same i.e 24,
So, we can say that Addition is Commutative for Integers.
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