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Natural Numbers: The counting numbers 1, 2, 3, 4, 5, … are called ‘natural numbers’. The smallest natural number is 1, but there is no last (or the greatest) natural number. There are infinitely many natural numbers.
Whole Numbers: The number ‘0’ together with the natural numbers give us the numbers 0, 1, 2, 3, 4, ... which are called ‘whole numbers’. Every natural number is a whole number but every whole number is not a natural number (because ‘0’ is not a natural number).
Integers: The whole numbers together with the negatives of counting numbers are known as ‘integers’. Thus, …, –4, –3, –2, –1, 0, 1, 2, 3, 4, … are integers.

Points to Remember: Rational Numbers | Mathematics (Maths) Class 8

Key Points:
I. The positive integers are 1, 2, 3, 4, …, i.e. the positive integers are the same as natural numbers.
II. The negative integers are …, –4, –3, –2, –1.
III. The greatest negative integer is –1, and the smallest positive integer is 1.
IV. ‘0’ is neither positive nor negative. It is greater than every negative integer and smaller than every positive integer.

Rational Numbers: The numbers which can be expressed as the ratio of integers are known as rational numbers. The examples of rational numbers will be 1/4, 2/7, - 3/10, 34/7, etc. On solving equations like 3x + 5 = 0, we get the solution as x = -5/3. The solution -5/3 is neither a natural number or whole number or integer.
This leads us to the collection of Rational Numbers. These are the numbers that can be expressed in x/y form; where y ≠ 0.
Properties of Rational Numbers: Rational numbers, expressed as fractions, possess key properties. They exhibit proprties such as closure, commutative and associative under basic arithmetic operations.

Let us discuss these properties of Rational numbers.

(i) Closure Property: When any operation is performed between two or more rational numbers and their result is also a rational number then we say that the rational numbers follow the closure property for that operation.

Operation	Numbers	Remark
Addition	(a) 5/3 + 3/2 = 19/6 (Rational No); (b) 7/3 +(– 5/2) = -1/6 (Rational No); ……	We can observe that addition of two rational numbers x and y, i.e. x + y is always a rational number. Hence, rational numbers are closed under addition.
Subtraction	(a) 5/3 - 3/2 = 1/6 (Rational No); (b) -7/3 – 5/2 = -29/6 (Rational No); ……	We can observe that subtraction of two rational numbers x and y, i.e. x - y is always a rational number. Hence, rational numbers are closed under subtraction.
Multiplication	(a) 5/ 3 × 3/2 = 5/2 (Rational No); (b) -2/7 × 14/5 = -4/5 (Rational No); ……	We can observe that multiplication of two rational numbers x and y, i.e. x × y is always a rational number. Hence, rational numbers are closed under multiplication.
Division	(a) 5/3 ÷ 3/2 = 10/9 (Rational No); (b) 12/3 ÷ 0 = ∞ (Not a rational no); …..	We can observe that division of two rational numbers x and y, i.e. x ÷ y is not always a rational number. Hence, rational numbers are not closed under division.

Question for Points to Remember: Rational Numbers

Try yourself:Which of the following statements best describes the closure property of Rational numbers?

A.
The sum of two rational numbers is always a real number.
B.
The product of two rational numbers is always an irrational number.
C.
The sum of two rational numbers is always an irrational number.
D.
The sum of two rational numbers is always a rational number.

View Solution

(ii) Commutative Property: When two rational numbers are swapped between one operator and still their result does not change then we say that the rational numbers follow the commutative property for that operation.

Operation	Numbers	Remark
Addition	(a) 5/3 + 3/2 = 19/6; 3/2 + 5/3 = 19/6 Here, both answers are same (b) 7/3 + (-5/2) = -1/6; (-5/2) + 7/3 = -1/6 Here, both answers are same ……	We can observe that addition of two rational numbers x and y when inter changed yields the same answer, i.e. x + y = y + x. Hence, rational numbers are commutative under addition.
Subtraction	(a) 5/3 - 3/2 = 1/6; 3/2 – 5/3 = -1/6 Here, both answers are different(b) 7/3 – 5/2 = -1/6; 5/2 – 7/3 = 1/6 Here, both answers are different ……	We can observe that subtraction of two rational numbers x and y when inter changed does not yield the same answer, i.e. x - y ≠ y - x. Hence, rational numbers are not commutative under subtraction.
Multiplication	(a) 5/3 × 3/2 = 5/2; 3/2 × 5/3 = 5/2 Here, both answers are same (b) -2/7 × 14/5 = -4/5; 14/5 × (-2/7) = -4/5 Here, both answers are same ……	We can observe that multiplication of two rational numbers x and y when inter changed yields the same answer, i.e. x × y = y × x. Hence, rational numbers are commutative under multiplication.
Division	(a) 5/3 ÷ 3/2 = 10/9; 3/2 ÷ 5/3 = 9/10 Here, both answers are different(b) 12/3 ÷ 0 = ∞ ; 0 ÷ 12/3 = 0 ; Here, both answers are different …..	We can observe that division of two rational numbers x and y when inter changed does not yield the same answer, i.e. x ÷ y ≠ y ÷ x. Hence, rational numbers are not commutative under division.

(iii) Associative Property: When rational numbers are rearranged among two or more same operations and still their result does not change then we say that the rational numbers follow the associative property for that operation.

Operation	Numbers	Remark
Addition	(a) 5/3 + (3/2 + 1/3) = 7/2; (5/3 + 3/2) + 1/3 = 7/2 Here, both answers are same (b) 7/3 + (-5/2 + 1/4) = 1/12; (7/3 + -5/2) + 1/4 = 1/12; Here, both answers are same ……	We can observe that addition of rational numbers x, y, and z in any order yields the same answer, i.e. x + (y + z) = (x + y) + z. Hence, rational numbers are associative under addition.
Subtraction	(a) 5/3 – (3/2 – 1/3) = 3/2; (5/3 – 3/2) – 1/3 = -1/2 Here, both answers are different ……	We can observe that subtraction of rational numbers x, y, and z in any order does not yields the same answer, i.e. x - (y - z) ≠ (x - y) - z. Hence, rational numbers are not associative under subtraction.
Multiplication	(a) 5/ 3 × (3/2 × 2/3) = 5/3; (5/ 3 × 3/2) × 2/3 = 5/3 Here, both answers are same (b) -2/7 × (14/5 × 10/2) = -4; (-2/7 × 14/5) × 10/2 = -4 Here, both answers are same ……	We can observe that multiplication of rational numbers x, y, and z in any order yields the same answer, i.e. x × (y × z) = (x × y) × z. Hence, rational numbers are associative under multiplication.
Division	(a) 5/3 ÷ (3/2 ÷ 1/4) = 5/18; (5/3 ÷ 3/2) ÷ 1/4 = 40/9 Here, both answers are different …..	We can observe that division of rational numbers x, y, and z in any order does not yields the same answer, i.e. x ÷ (y ÷ z) ≠ (x ÷ y) ÷ z. Hence, rational numbers are not associative under division.

Question for Points to Remember: Rational Numbers

Try yourself:The associative property of rational numbers states that:

A.
For any three rational numbers a, b, and c, a + (b + c) = (a + b) + c
B.
For any two rational numbers a and b, a + b = b + a
C.
For any two rational numbers a and b, a - b = b - a
D.
For any two rational numbers a and b, a * b = b * a

View Solution

The Role of Zero(0) and One(1)

(i) The zero is called the identity element for the addition of rational numbers, i.e. the sum of 0 and a rational number is the rational number itself.
Note: Zero is also the additive identity for integers and whole numbers as well.
(ii) 1 is the multiplicative identity for rational numbers, i.e. the product of 1 and a rational number is the rational number itself.
Note: 1 is the multiplicative identity for integers and whole numbers also.

Distributivity of Multiplication over Addition and Subtraction: If the rational numbers a, b, and c obey the property of a × (b + c) = ab + ac, then it is said to follow the distributive property of multiplication over addition.
Example:
1/3 × (2/3 + 1/4) = 1/3 × 11/12 = 11/36…………………..(i)
(1/3 × 2/3) + (1/3 × 1/4) = 2/9 + 1/12 = 11/36…………(ii)
Here, answer for both the equations (i) and (ii) are same.
Hence, rational numbers follow the distributive property of multiplication over addition.

Recap:
A number of the form p/q , where ‘p’ and ‘q’ are any integers and q ≠ 0 is called a rational number.
Rational numbers are closed under the operations of addition, subtraction and multiplication.
Rational numbers are commutative under addition and multiplication.
Rational numbers are associative under addition and multiplication.
The rational number ‘0’ is the additive identity for rational numbers i.e. x/y + 0 = x/y.
The rational number 1 is the multiplicative identity for rational numbers i.e. x/y × 1 = x/y.
For all rational numbers, a, b and c, we have:
a(b + c) = ab + ac
a(b – c) = ab – ac

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FAQs on Points to Remember: Rational Numbers - Mathematics (Maths) Class 8

1. What are natural numbers?

Ans. Natural numbers are a set of positive numbers that are used for counting or ordering objects. They start from 1 and continue infinitely: 1, 2, 3, 4, 5, ...

2. What are whole numbers?

Ans. Whole numbers include all the natural numbers along with zero (0). They are non-negative integers and do not include fractions or decimals: 0, 1, 2, 3, 4, ...

3. What are integers?

Ans. Integers are a set of numbers that include all the whole numbers along with their negative counterparts and zero. They can be positive, negative, or zero: ..., -3, -2, -1, 0, 1, 2, 3, ...

4. What are rational numbers?

Ans. Rational numbers are numbers that can be expressed as a fraction or ratio of two integers. They can be positive, negative, or zero, and can include both terminating and repeating decimals: 1/2, -3/4, 0.25, -1.333...

5. How are rational numbers different from other types of numbers?

Ans. Rational numbers differ from other types of numbers because they can be expressed as fractions or ratios. Unlike natural numbers, whole numbers, and integers, rational numbers can include decimals that either terminate or repeat. Rational numbers encompass a broader range of numbers, including both positive and negative fractions, integers, and zero.

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