Introduction to whole numbers and integers
Whole number: The term whole number does not have a consistent definition. The whole number means is a set of collection of numbers including all non negative integers (0,1,...) and all positive integers(1,,3,...) and all integers(...,-3,--1,0,1,3,...).
For example: 8, 78, -676 are all the whole number.
Integer: The integer is formed by the natural numbers including zero (0, 1, 3...) together with negatives of the non zero natural numbers that is -1,-3....etc. That number also viewed as subset of a real number, The integer can be written without a decimal compound or fractional and it fall with the set of (... -3,-2,-1,0,1,2,3,...).
For example: 76, 9, and -765 are integers. 1.9 And '1 2/3' are not integers.
Basic properties of whole numbers
Here we are going to study about the properties of whole numbers .
1 )Commutative property of addition of whole number :
Addition is a commutative switching the order of 2 numbers being added and the value of the result remains same.
Example: 100 + 7 = 7 + 100 = 107
2)Commutative property of multiplication of whole number:
Multiplication is a commutative switching the orders of 2 numbers being multiply.
For example: 100 x 7 = 7 x 100 = 700.
3)Associative property of whole number:
The addition and multiplication are associative: The same order of that number in grouped together and gives the same answer.
For example:(10 + 2) + 7 = 10 + (2 + 7) = 19
6 × (2 × 10) = (6 × 2) × 10 =120
4)Distributive Property:
The distributive property of multiplication over the addition: multiplication may be distributed over addition.
For example:5 × (10 + 8) = (5 × 10) + (5 × 8)
4 × (12 +11) = (4 × 12) + (4 × 11)
5) Zero property of whole number:
If we add zero to a number, the value of the number remains same. So the zero is a additive identity.
For example: 99 + 0 = 99
Multiplying of any no by zero results zero.
For example: 99 x 0 = 0
Basic properties of whole no integersintegers:
Here we study about the some basic properties of whole nos integers .
1) Commutative property of addition of whole nos integers:
The commutative property of addition tells that we can add nos in any order.
For example: -4 + two = two+ (-4)
2) Commutative property of multiplication of whole nos integers:
The commutative property of multiplication tells that we can multiply nos in any order doesn't change result.
For example: -4 x two = two x (-4).
3) Associative property of addition of whole no. integers:
The associative property of Addition tells that we can group together then we get the same result.
For Example : (-4 + two) + 3 = -4 + (two + 3)
4) Associative property of multiplication of whole no. integers:
The associative property of multiplication tells that we can group together in a product then we get the same answer.
For example : -4(2) x 3 = -4(2x 3)
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