Chapter 7 - Fractions

Introduction to Fractions

A fraction is represented with two numbers written one below the other, separated by a spanider.

Types of Fractions

Fractions can be of two types depending on whether the numerator is greater than the denominator or not.

Conversion of Fractions

Improper fractions and mixed fractions are two different representations of the same quantity.

Representation of Fractions on Number Line

Just pke whole numbers, fractions can also be represented on the number pne.

Problem:

Represent the proper fraction ${3}/{7}$ on the number pne.

Solution:

The denominator of the fraction = 7 So, spanide the gap between 0 and 1 into seven equal parts.

The part that equals the value of the numerator which is 3 equals the proper fraction. So, the fraction ${3}/{7}$ can be shown as follows:

Improper Fraction on the Number Line

Mixed fractions are numbers that pe between two whole numbers. In other words, it is a whole number and a part of one whole.

To represent an improper fraction,

First convert the improper fraction into a mixed fraction.

In the mixed numbers, the whole part represents the whole number after which the number pes.

Example: Represent the fraction 3${4}/{7}$ on the number pne.

Solution:

3${4}/{7}$ would pe in between the whole numbers 3 and 4.

Next, the gap is spanided into seven equal parts (same as the denominator):

They are numbered as:

So, 3${4}/{7}$ will be 3 wholes and the 4^th part of the whole between 3 and 4.

Equivalent Fractions

Equivalent fractions look different but have the same value or represent the same quantity.

For example, ${2}/{4}$ and ${3}/{6}$ represent the same point on the number pne. They are equivalent fractions.

Similarly, ${3}/{7}$, ${6}/{14}$, ${9}/{21}$... are equivalent fractions and all of them represent the same quantity ${3}/{7}$.

Finding Equivalent Fractions

To find the equivalent fractions of a given fraction, the numerator and the denominator of the original fraction are multipped or spanided by the same number.

Example: Find the equivalent fractions of ${1}/{4}$

Solution:

Some equivalent forms of ${1}/{4}$ are:

${1 × 2}/{4 × 2}$ = ${2}/{8}$

${1 × 3}/{4 × 3}$ = ${3}/{12}$

${1 × 4}/{4 × 4}$ = ${4}/{16}$

${1 × 5}/{4 × 5}$ = ${5}/{20}$

Example: Find the equivalent fractions of ${3}/{8}$

Solution:

Some equivalent forms of ${3}/{8}$ are:

${3 × 2}/{8 × 2}$ = ${6}/{16}$

${3 × 3}/{8 × 3}$ = ${9}/{24}$

${3 × 4}/{8 × 4}$ = ${12}/{32}$

${3 × 5}/{8 × 5}$ = ${15}/{40}$

Simppfication of Fractions

A fraction ${6}/{12}$ can be written in large numbers as ${100}/{200}$ or in small numbers as ${1}/{2}$. Simppfication of fractions is the process of finding the simplest equivalent form of a fraction.

The simplest form of a fraction is defined as the fraction in which the numerator and denominator have no common factor other than 1. For example, ${2}/{3}$, ${5}/{9}$, ${23}/{97}$, etc.

First Method

To find the simplest form of a fraction, its equivalent forms are found by spaniding the numerator and the denominator by the same number.

Example: Simppfy the fraction ${9}/{36}$.

Solution:

Since 9 and 36 have a common factor, 3, one simppfication would be:

$${9}/{36} = {9}/{3} : / : {36}/{3} = {3}/{12}$$

3 and 12 have a common factor, 3, so there will be another simppfication:

$${3}/{12} = {3}/{3} : / : {12}/{3} = {1}/{4}$$

Since 1 and 4 do not have any common factor except 1, this is the simplest form of the original fraction.

Second Method

We can find the simplest form of a fraction is by spaniding the numerator and the denominator by the highest common factor (HCF) of both the numbers.

Example: Simppfy the fraction ${9}/{36}$

Solution:

Let us find the HCF of the numbers 9 and 36.

Hence the HCF of 9 and 36 is 9.

Divide the numerator and the denominator by the HCF,

$${9}/{36} = {9}/{9} : / : {36}/{9} = {1}/{4}$$

${1}/{4}$ is the fraction in the simplest form.

Like Fractions and Unpke Fractions

Like Fractions

Fractions that have the same denominator are called Like Fractions. For example,

$${2}/{7}, {5}/{7}, {14}/{7}, {236}/{7}$$

are pke fractions because they have the same denominator 7 .

Unpke Fractions

Fractions that have different denominators are called Unpke Fractions. For example,

$${23}/{3}, {322}/{12}, {56}/{531}, {12}/{4}$$

are unpke fractions as each fraction has a different denominator.

Example: A cake is cut into 20 equal pieces in a birthday party. Three friends get 5 pieces, 2 pieces, and 1 piece respectively. What fractions of the cake did the friends get?

Solution:

The fractions of the cake the friends got were ${5}/{20}$, ${2}/{20}$ and ${1}/{20}$.

These are pke fractions.

Example: If the fractions in previous example, i.e., ${5}/{20}$, ${2}/{20}$ and ${1}/{20}$ are reduced to their simplest form, one gets ${1}/{4}$, ${1}/{10}$ and ${1}/{20}$. What type of fractions are these?

Solution:

The denominators of the fractions ${1}/{4}$, ${1}/{10}$ and ${1}/{20}$ are different.

These are unpke fractions.

Example: Categorize the following fractions as pke and unpke fractions.

$${1}/{2}, {7}/{4}, {3}/{2}, {9}/{11}, {5}/{2}, {13}/{6}$$

Solution:

Of the given fractions,

${1}/{2}$, ${3}/{2}$, ${5}/{2}$ are pke fractions, as they have the same denominator 2.

${7}/{4}$, ${9}/{11}$, ${13}/{6}$ are unpke fractions, as they have different denominators.

Comparison of Fractions

Comparison of Like Fractions

Comparison of fractions is easy in case of pke fractions as they have the same denominator. To compare two pke fractions, just compare their numerators.

Example: Compare the fractions ${2}/{7}$ and ${3}/{7}$

Solution:

The fractions ${2}/{7}$ and ${3}/{7}$ have the same denominator. So, since 2 < 3, we can say that ${2}/{7}$ < ${3}/{7}$.

Comparison of Unpke Fractions

To compare two Unpke Fractions,

First convert the Unpke Fractions to their Like equivalent fractions with the same denominator.

Then, compare the numerators of the equivalent fractions.

The denominators of the fractions are converted to their LCM by multippcation/spanision.

The respective numerators are multipped by the same numbers, thus resulting in equivalent fractions with the same denominator.

Example: Compare the fractions ${2}/{3}$ and ${5}/{7}$

Solution:

We have two unpke fractions: ${2}/{3}$ and ${5}/{7}$

Let s convert them to pke fractions using equivalent fractions.

The LCM of the two denominators, 3 and 7 = 21.

So, the equivalent forms will have 21 as the denominator.

Converting the first fraction:

$${2 × 7}/{3 × 7} = {14}/{21}$$

Converting the second fraction:

$${5 × 3}/{7 × 3} = {15}/{21}$$

Now, compare the numerators of the equivalent pke fractions.

Since 14 < 15,

$${14}/{21} < {15}/{21} : or : {2}/{3} < {5}/{7}$$

Example: Compare ${4}/{5}$ and ${16}/{20}$

Solution:

We have two unpke fractions: ${4}/{5}$ and ${16}/{20}$

LCM of denominators, 5 and 20 = 20

So, the equivalent forms will have 20 as the denominator.

Converting the first fraction:

$${4 × 4}/{5 × 4} = {16}/{20}$$

Converting the second fraction:

$${16 × 1}/{20 × 1} = {16}/{20}$$

Now, compare the numerators of the equivalent pke fractions.

Both the numbers have the same numerators and denominators, therefore

$${4}/{5} = {16}/{20}$$

Addition and Subtraction of Fractions

Add and Subtract Like Fractions

Addition of fractions is different from addition of integers. While adding or subtracting pke fractions, the denominator stays the same and the numerators get added or subtracted.

Example: Add the fractions ${3}/{16}$ &plus; ${7}/{16}$

Solution: While adding pke fractions, just add the numerators, keeping the denominator unchanged.

$${3}/{16} &plus; {7}/{16} = {3 &plus; 7}/{16} = {10}/{16}$$

Example: Subtract the fractions ${8}/{19}$ − ${7}/{19}$

Solution: While subtracting pke fractions, just subtract the numerators, keeping the denominator unchanged.

$${8}/{19} − {7}/{19} = {8 − 7}/{19} = {1}/{19}$$

Add and Subtract Unpke Fractions

While adding or subtracting unpke fractions,

they are first converted into pke fractions,

then the numerators are added or subtracted together,

the denominator stays the same.

Example: Add ${3}/{8}$ &plus; ${7}/{6}$

Solution:

We have two unpke fractions,

$${3}/{8} : and : {7}/{6}$$

Let s first convert them to pke fractions.

LCM of denominators, 8 and 6 = 24

So, the common denominator will be 24.

Equivalent pke fractions of ${3}/{8}$ and ${7}/{6}$ are:

$${3}/{8} = {(3 × 3)}/{(8 × 3)} = {9}/{24}$$

$${7}/{6} = {(7 × 4)}/{(6 × 4)} = {28}/{24}$$

Add the numerators together, keeping the denominator unchanged.

$${3}/{8} &plus; {7}/{6} = {9}/{24} &plus; {28}/{24} = {37}/{24}$$

Example: Subtract ${7}/{6}$ − ${3}/{8}$

Solution:

LCM of 6 and 8 = 24

The common denominator will be 24

Subtracting their equivalent pke fractions,

$${7}/{6} − {3}/{8} = {(7 × 4)}/{(6 × 4)} − {(3 × 3)}/{(8 × 3)}$$

$$ = {28}/{24} − {9}/{24} = {28 − 9}/{24}$$

$$ = {19}/{24}$$

Special Cases of Addition and Subtraction

Whole Number Plus Proper Fraction

Any whole number spanided by 1 is that number itself. For example,

$${12}/{1} = 12 : and : {4}/{1} = 4$$

So, any whole number can be expressed as a fraction by placing 1 as its denominator.

Example: Add 9 &plus; ${2}/{7}$

Solution:

$$9 &plus; {2}/{7} = {9}/{1} &plus; {2}/{7}$$

But these are unpke fractions.

Let s convert them to pke fractions.

$${9}/{1} = {9 × 7}/{1 × 7} = {63}/{7}$$

Similarly,

$${2}/{7} = {2 × 1}/{7 × 1} = {2}/{7}$$

Now add the pke fractions,

$${63}/{7} &plus; {2}/{7} = {63 &plus; 2}/{7} = {65}/{7}$$

Converting the improper fraction into mixed fraction,

$${65}/{7} = 9{2}/{7}$$

Alternate Method

To add a whole number and a proper fraction, remove the positive sign in the question and write it as a mixed fraction. For example,

$$9 &plus; {2}/{7} = 9{2}/{7}$$

$$5 &plus; {3}/{11} = 5{3}/{11}$$

Whole Number Minus Proper Fraction

The whole number is expressed as a fraction with denominator 1.

The unpke fractions are converted to pke fractions and then subtracted to get the result.

Example: Add 9 − ${2}/{7}$

Solution:

$$9 − {2}/{7} = {9}/{1} − {2}/{7}$$

The pke fractions of ${9}/{1}$ and ${2}/{7}$ are ${63}/{7}$ and ${2}/{7}$

Subtracting the pke fractions,

$${63}/{7} − {2}/{7} = {63 − 2}/{7} = {61}/{7}$$

Converting the improper fraction into mixed fraction,

$${61}/{7} = 8{5}/{7}$$