Math, asked by fakrulislamlaskar, 5 months ago

write down the addition and multiplication properties of whole numbers with an example of each​

Answers

Answered by ps2628410
3

Step-by-step explanation:

Commutative Property of Addition and Multiplication

The sum and product of two whole numbers will be the same whatever the order they are added or multiplied in, i.e., if x and y are two whole numbers, then x + y = y + x and x . y = y . x

Answered by Vivek2425
5

Answer:

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Step-by-step explanation:

Properties of Whole Numbers

Properties of whole numbers help us to understand the numbers better. Moreover, they make calculations under certain operations like addition,subtraction,multiplication and division very simple. The different types of properties of whole numbers are are follows:

1) Closure for addition and multiplication.

2) Commutative property for addition and multiplication.

3) Associative property for addition and multiplication.

4) Distributive property of multiplication over addition.

5) Identity for addition and multiplication.

Closure property :

5 + 6 = 11

9 + 8 = 17

36 + 0 = 36

9 x 8 = 72

6 x 11 = 66

0 x 84 = 0

From the example we can conclude that when we add or multiply any two whole numbers we get a whole number.

Whole numbers are closed under addition and multiplication.

Note : Division by zero is not defined.

Commutative property for addition and multiplication

You can add whole nos. in any order. We can say that addition is commutative for whole numbers. This property is known as commutativity for addition.

5 + 11 = 11 + 5

16 = 16

You can multiply two whole numbers in any order. Thus we say multiplication is commutative for whole nos.

Multiply 8 and 6 in different orders, you will get the same answer.

8 x 6 = 48

6 x 8 = 48

∴ 8 x 6 = 6 x 8

Note : Subtraction is not commutative. ( 6 – 5 ≠ 5 – 6).

Division is not commutative. ( 4 ÷ 2 ≠ 2 ÷ 4).

Associative of addition and multiplication :

Observe the following examples :

1) (5 + 7 ) + 3 = 12 + 3 = 15

2) 5 + ( 7 + 3) = 5 + 10 = 15

In the 1st , you can add 5 and 7 first and then add 3 to the sum and in 2nd , you can add 7 and 3 first and then add 5 to the sum. The result in both the cases are same.

This property is generally used to do the addition is easy and fast way.

Oberve the following example :

234 + 197 + 203

In the above example, if we add 197 and 203 first then it will be more easier as unit (ones) digit has become zero.

234 + (197 + 203)

= 234 + 400

= 634

For Multiplication :

Multiplication is true for associative property.

8 x 125 x 1294

Here , if you multiply 125 and 1294 then it will be hard and time consuming. So we will multiply 8 and 125 and then with 1294.

( 8 x 125) x 1294

= 1000 x 1294

= 1,294,000 This arrangement of number is known as associative property.

Distributive of multiplication over addition

35 x ( 98 + 2 ) = 35 x 100 = 3500

65 x (48 + 2) = 65 x 50 = 3250

297 x 17 + 297 x 3 = 297 x (17 + 3) = 297 x 20 = 5940

All the above are the examples of distributive property of multiplication over addition.

Example :

854 x 102

To make this multiplication simpler, write 102 as 100 + 2 and then use distributive property.

854 x (100 + 2)

= 854 x 100 + 854 x 2 ------( distributive property)

= 85,400 + 1,708

= 87,108

Identity (for addition and multiplication

The collection of whole numbers is different from the collection of natural numbers because of just the presence of zero.This number zero has a special role in addition.

When you add zero to any whole number, the same whole number again.

Zero is called an Identity for addition of whole numbers or additive identity for whole numbers.

Zero has a special role in multiplication too. Any number when multiplied by zero becomes zero !

86 x 0 = 0

0 x 125 = 0

You came across an additive identity for whole numbers, a number remains unchanged when added zero to it. Similar case for multiplicative identity for whole numbers. A number remains unchanged when we multiply by 1. So 1 is called identity for multiplication of whole numbers or multiplicative identity for whole numbers.

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