Class 7 Exam  >  Class 7 Notes  >  Mathematics (Maths) Class 7  >  Chapter Notes: Rational Numbers

Rational Numbers Class 7 Notes Maths Chapter 1

Introduction

In your study of numbers, you started by counting objects around you.
Rational Numbers Class 7 Notes Maths Chapter 1

  • Natural Numbers: The numbers you use for counting are called counting numbers or natural numbers. They are 1, 2, 3, 4, and so on.
  • Whole Numbers: When we include 0 with natural numbers, we get the whole numbers, which are 0, 1, 2, 3, and so on.
  • Integers: Then we combined the negatives of natural numbers with whole numbers to create integers. Integers are numbers like -3, -2, -1, 0, 1, 2, 3, and so on. 
  • Fractions, which are numbers written in the form of numerator/denominator, where the numerator can be 0 or a positive whole number, and the denominator is a positive whole number. 
  • Need for Rational Numbers: While integers represent whole values and their opposites, some situations require fractional values (e.g., -3/4 km to denote distance below sea level), necessitating an expanded number system to include rational numbers.
  • Focus of this chapter: In this chapter, we will introduce the concept of rational numbers, along with exploring how to add, subtract, multiply, and divide them.

What are Rational Numbers?

A rational number is a number that can be written in the form p/q, where p and q are integers and q ≠ 0.

Rational Numbers Class 7 Notes Maths Chapter 1

  • The denominator q cannot be zero.
  • All numbers, including whole numbers, integers, fractions and decimal numbers, can be written in the numerator/denominator form.
  • Positive Rational Number: A rational number is positive if both p and qq are either both positive or both negative.  Positive rational numbers are represented to the right of 0 on the number line.
  • Negative Rational Number: It is negative if one of p or q is negative. Negative rational numbers are represented to the Left of 0 on the number line.
    Rational Numbers Class 7 Notes Maths Chapter 1
  • Equivalent Rational Number: By multiplying or dividing both the numerator and the denominator of a rational number by the same non-zero integer, we can get another rational number that is equivalent to the given rational number.
  • The standard form of Rational Number:  A rational number is in its standard form if the numerator and denominator are co-prime (i.e., their greatest common divisor is 1) and the denominator is positive. To convert a rational number to its standard form, divide the numerator and denominator by their Highest Common Factor (HCF). If the denominator is negative, factor out the negative sign to ensure a positive denominator.
    Rational Numbers Class 7 Notes Maths Chapter 1

Properties of Rational Numbers

(a) Closure Property

Definition: If you can perform a mathematical operation (like addition or multiplication) on two numbers and always get a result that is still within the same set of numbers, then that set is said to be "closed" under that operation.
Closure property application to sets of numbers and operations. Closure property application to sets of numbers and operations. 

(b) Commutativity Property

Definition: An operation is commutative if you can change the order of the numbers and still get the same result.
Commutativity property for different sets of numbers and operations Commutativity property for different sets of numbers and operations 

Question for Chapter Notes: Rational Numbers
Try yourself:Which of the following properties is NOT true for rational numbers?
View Solution

(b) Associativity Property 

Definition: An operation is associative if the way you group the numbers does not change the result.

Rational Numbers Class 7 Notes Maths Chapter 1

The Role of Zero (0):


Zero plays a fundamental role in mathematics as the identity element for addition. It does not change the value of other numbers when added to them.

  1. Addition with Whole Numbers:
    • 2+0=0+2=22+0=0+2=2
    • Adding zero to a whole number results in the same whole number.
    • In general, �+0=0+�=�a+0=0+a=a, where a is a whole number.
  2. Addition with Integers:
    • −5+0=0+(−5)=−55+0=0+(5)=5
    • Adding zero to an integer yields the same integer.
    • In general, �+0=0+�=�b+0=0+b=b, where b is an integer.
  3. Addition with Rational Numbers:
    • 27+0=0+27=Rational Numbers Class 7 Notes Maths Chapter 1
    • Adding zero to a rational number results in the same rational number.
    • In general, �+0=0+�=�c+0=0+c=c, where c is a rational number.
  4. Identity for Addition:
    • Zero is called the identity for the addition of rational numbers.
    • It serves as the additive identity for integers and whole numbers as well.

The Role of 1:

  1. Multiplication with Whole Numbers:
    • 5×1=1×5=55×1=1×5=5
    • Multiplying any whole number by 1 gives the same whole number.
    • In general, �×1=1×�=�a×1=1×a=a for any whole number a.
  2. Multiplication with Rational Numbers:
    • 27×1=1×27=27Multiplying any rational number by 1 results in the same rational number.
    • In general, �×1=1×�=�a×1=1×a=a for any rational number a.
  3. Multiplicative Identity:
    • 1 is called the multiplicative identity for rational numbers.
    • It is also the multiplicative identity for integers and whole numbers.

Negative of a Number:


=> For integers, the negative of a number is found by adding the additive inverse.

  • 1+(−1)=(−1)+1=01+(1)=(1)+1=0, so the negative of 1 is -1.
  • 2+(−2)=(−2)+2=02+(2)=(2)+2=0, making 2 the negative or additive inverse of -2, and vice versa.
  • In general, for an integer a, �+(−�)=(−�)+�=0a+(a)=(a)+a=0.

=>For rational numbers, similar principles apply.

Rational Numbers Class 7 Notes Maths Chapter 1

In general, for a rational number Rational Numbers Class 7 Notes Maths Chapter 1

Reciprocal of a Number:

The reciprocal or multiplicative inverse of a rational number Rational Numbers Class 7 Notes Maths Chapter 1 is another rational number  Rational Numbers Class 7 Notes Maths Chapter 1

For example, Rational Numbers Class 7 Notes Maths Chapter 1
Zero has no reciprocal because there is no rational number that, when multiplied by 0, results in 1.
Zero has no reciprocal because there is no rational number that, when multiplied by 0, results in 1.
In general, ifRational Numbers Class 7 Notes Maths Chapter 1is the reciprocal of  Rational Numbers Class 7 Notes Maths Chapter 1, then Rational Numbers Class 7 Notes Maths Chapter 1

  • 23+(−23)=(−23)+23=0

Operations on Rational Numbers

Addition of Rational Numbers

  • Same Denominator: If two rational numbers have the same denominator, simply add their numerators. The denominator remains unchanged.
    Example: 34+14=44 =1

  • Different Denominators: Convert the rational numbers to have a common denominator before adding. Find equivalent fractions with the same denominator, then add the numerators. Example: 12+13=36+26=56\frac{1}{2} + \frac{1}{3} = \frac{3}{6} + \frac{2}{6} = \frac{5}{6}

  • Additive Inverses: Two rational numbers whose sum is zero are additive inverses of each other. Example: 23\frac{2}{3} & 23-\frac{2}{3}

Subtraction of Rational Numbers

  • Same Denominator: If the rational numbers have the same denominator, subtract their numerators. The denominator remains the same. Example: 5828=38\frac{5}{8} - \frac{2}{8} = \frac{3}{8}

  • Different Denominators: Convert to equivalent rational numbers with a common denominator before subtracting. Subtract the numerators and keep the common denominator. Example: 3416=912212=712\frac{3}{4} - \frac{1}{6} = \frac{9}{12} - \frac{2}{12} = \frac{7}{12}

Multiplication of Rational Numbers

  • Multiply the numerators together and the denominators together. Maintain the signs correctly. Example: 1/3×25=2/15\frac{-1}{3} \times \frac{2}{5} = \frac{-2}{15}

  • Reciprocals: Two rational numbers whose product is 1 are reciprocals of each other. Example: 1/3\frac{-1}{3} and 3/1\frac{-3}{1};  1/3×3/1=1\frac{-1}{3} \times \frac{-3}{1} = 1

  • A rational number and its reciprocal will always have the same sign.

Division of Rational Numbers

  • To divide by a rational number, multiply by its reciprocal. Example: 25÷34=25×43=815\frac{2}{5} \div \frac{3}{4} = \frac{2}{5} \times \frac{4}{3} = \frac{8}{15}

Some Solved Examples on Above Concepts

Example 1: Simplify the rational number -16/(-24)

Ans:

Step 1: Identify the common factors of both numerator and denominator. In this case, the common factors are 2, 4, and 8.
Step 2: Divide both numerator and denominator by the greatest common factor, which is 8.
(-16) ÷ 8 = 2
(-24) ÷ 8 = 3
So, -16/(-24) simplifies to 2/3.

Example 2: Add the rational numbers 2/5 and 3/10
Ans:

Step 1: Find the least common denominator (LCD) of both denominators. In this case, the LCD is 10.
Step 2: Convert both fractions to equivalent fractions with the LCD as the new denominator.
2/5 = 4/10 (multiply both numerator and denominator by 2)
3/10 = 3/10 (no change needed) 
Step 3: Add the equivalent fractions.
4/10 + 3/10 = (4 + 3) / 10 = 7/10
So, 2/5 + 3/10 = 7/10.

Example 3Using appropriate properties, find:
-2/3 × 3/5 + 5/2 – 3/5 × 1/6

Solution:
-2/3 × 3/5 + 5/2 – 3/5 × 1/6
= -2/3 × 3/5– 3/5 × 1/6+ 5/2 (by commutativity)
= 3/5 (-2/3 – 1/6)+ 5/2
= 3/5 ((- 4 – 1)/6)+ 5/2
= 3/5 ((–5)/6)+ 5/2 (by distributivity)
= – 15 /30 + 5/2
= – 1 /2 + 5/2
= 4/2
= 2

Example 4: Using appropriate properties, find:
 2/5 × (- 3/7) – 1/6 × 3/2 + 1/14 × 2/5 

2/5 × (- 3/7) – 1/6 × 3/2 + 1/14 × 2/5
= 2/5 × (- 3/7) + 1/14 × 2/5 – (1/6 × 3/2) (by commutativity)

= 2/5 × (- 3/7 + 1/14) – 3/12
= 2/5 × ((- 6 + 1)/14) – 3/12
= 2/5 × ((- 5)/14)) – 1/4
= (-10/70) – 1/4
= – 1/7 – 1/4
= (– 4– 7)/28
= – 11/28

Example 5: Verify that: -(-x) = x for:
(i) x = 11/15
(ii) x = -13/17

Solution:
(i) x = 11/15
We have, x = 11/15
The additive inverse of x is – x (as x + (-x) = 0).
Then, the additive inverse of 11/15 is – 11/15 (as 11/15 + (-11/15) = 0).
The same equality, 11/15 + (-11/15) = 0, shows that the additive inverse of -11/15 is 11/15.
Or, – (-11/15) = 11/15
i.e., -(-x) = x

(ii) -13/17
We have, x = -13/17
The additive inverse of x is – x (as x + (-x) = 0).
Then, the additive inverse of -13/17 is 13/17 (as 13/17 + (-13/17) = 0).
The same equality (-13/17 + 13/17) = 0, shows that the additive inverse of 13/17 is -13/17.
Or, – (13/17) = -13/17,
i.e., -(-x) = x

Question for Chapter Notes: Rational Numbers
Try yourself:What is the sum of two rational numbers -3/7 and 5/7?
View Solution

Comparing Two Rational Numbers

While comparing positive rational numbers with the same denominator, the number with the greatest numerator is the largest. It is easy to compare these numbers if their denominators are the same.

Eg: Rational Numbers Class 7 Notes Maths Chapter 1
A positive rational number is always greater than a negative rational number. While comparing negative rational numbers with the same denominator, compare their numerators ignoring the minus sign. The number with the greatest numerator is the smallest.

Rational Numbers Class 7 Notes Maths Chapter 1
Positive rational numbers lie to the right of 0, while negative rational numbers lie to the left of 0 on the number line.

Rational Numbers Class 7 Notes Maths Chapter 1

To compare rational numbers with different denominators, convert them into equivalent rational numbers with the same denominator, which is equal to the LCM of their denominators. You can find infinite rational numbers between any two given rational numbers.

Question for Chapter Notes: Rational Numbers
Try yourself: Which of the following rational numbers is the smallest?
 
View Solution

Representation of Rational Numbers on the Number Line

Representation of whole numbers, natural numbers and integers on a number line is done as follows

Rational Numbers Class 7 Notes Maths Chapter 1Rational Numbers can also be represented on a number line like integers i.e. positive rational numbers are on the right to 0 and negative rational numbers are on the left of 0.

Representation of rational numbers can be done on a number line as follows:

Rational Numbers Class 7 Notes Maths Chapter 1

Between any two rational numbers, there are infinitely many rational numbers.

Rational Numbers between Two Rational Numbers

To find the rational numbers between two rational numbers, we have to make their denominator the same then we can find the rational numbers.

Example: Find three rational numbers between 1/4 and 1/2.

Ans:
(i) First, we find the mean of given numbers.
Mean isRational Numbers Class 7 Notes Maths Chapter 1

Rational Numbers Class 7 Notes Maths Chapter 1

(ii) Again we find another rational number between 1/4 and 3/8 .For this, again we calculate mean of 1/4 and 3/8.
Mean is Rational Numbers Class 7 Notes Maths Chapter 1

Rational Numbers Class 7 Notes Maths Chapter 1

(iii) For the third rational number, we again find mean of 3/8 and 1/2.

Mean is  Rational Numbers Class 7 Notes Maths Chapter 1

Rational Numbers Class 7 Notes Maths Chapter 1

Hence, 5/16, 3/8, and 7/16 are 3 rational numbers between 1/4 and 1/2.

Rational Numbers Class 7 Notes Maths Chapter 1

Example: Find rational numbers between 3/5 and 3/7.

Ans: To find the rational numbers between 3/5 and 3/7, we have to make their denominator same.
LCM of 5 and 7 is 35.
Rational Numbers Class 7 Notes Maths Chapter 1Hence the rational numbers between 3/5 and 3/7 are 
Rational Numbers Class 7 Notes Maths Chapter 1
These are not the only rational numbers between 3/5 and 3/7.
If we find the equivalent rational numbers of both 3/5 and 3/7 then we can find more rational numbers between them.
Rational Numbers Class 7 Notes Maths Chapter 1

Hence we can find more rational numbers between 3/5 and 3/7.

Remark: Between any two given rational numbers, we need not necessarily get an integer but there are countless rational numbers between them.

Hope you’ve grasped the chapter thoroughly. For a more enriching learning experience, check out this video. 

The document Rational Numbers Class 7 Notes Maths Chapter 1 is a part of the Class 7 Course Mathematics (Maths) Class 7.
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FAQs on Rational Numbers Class 7 Notes Maths Chapter 1

1. What is the need for understanding Rational Numbers in mathematics?
Ans. Rational numbers are essential in mathematics as they help us represent fractions, decimals, and integers. They are used in various mathematical operations such as addition, subtraction, multiplication, and division, making them a fundamental concept in mathematics.
2. How are Rational Numbers defined and what sets them apart from other types of numbers?
Ans. Rational numbers are numbers that can be expressed as a fraction of two integers, where the denominator is not equal to zero. They include integers, fractions, and decimals that either terminate or repeat. This distinguishes them from irrational numbers, which cannot be expressed as a fraction of two integers.
3. What are some properties of Rational Numbers that make them unique?
Ans. Rational numbers have properties such as closure under addition, subtraction, multiplication, and division. They also have the property of being able to be written in simplest form, where the numerator and denominator have no common factors other than 1.
4. How do you perform operations on Rational Numbers, such as addition, subtraction, multiplication, and division?
Ans. Operations on Rational Numbers involve following the rules of arithmetic for fractions. Addition and subtraction require finding a common denominator, while multiplication involves multiplying the numerators and denominators. Division is done by multiplying by the reciprocal.
5. Can Rational Numbers be both positive and negative, and how do we differentiate between the two?
Ans. Yes, Rational Numbers can be both positive and negative. Positive rational numbers have a positive sign (+) in front of them, while negative rational numbers have a negative sign (-) in front of them. The sign indicates the direction on the number line.
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