Solution

(i) $\frac{36}{100}=0.36$

Terminating

(ii) $\frac{1}{11}=0.090909 \ldots \ldots=0 . \overline{09}$

Non-terminating repeating

(iii) $4 \frac{1}{8}=\frac{33}{8}=4.125$

Terminating

(iv) $\frac{3}{13}=0.230769230769 \ldots=0 . \overline{230769}$

Non-terminating repeating

(v) $\frac{2}{11}=0.18181818$ $=0 . \overline{18}$

Non-terminating repeating

(vi) $\frac{329}{400}=0.8225$

Terminating

Solution

Yes. It can be done as follows.

$ \begin{aligned} & \frac{2}{7}=2 \times \frac{1}{7}=2 \times 0 . \overline{142857}=0 . \overline{285714} \\ & \frac{3}{7}=3 \times \frac{1}{7}=3 \times 0 . \overline{142857}=0 . \overline{428571} \quad 10 x=6+x \\ & \frac{4}{7}=4 \times \frac{1}{7}=4 \times 0 . \overline{142857}=0 . \overline{571428} \\ & \frac{5}{7}=5 \times \frac{1}{7}=5 \times 0 . \overline{142857}=0 . \overline{714285} \\ & \frac{6}{7}=6 \times \frac{1}{7}=6 \times 0 . \overline{142857}=0 . \overline{857142} \end{aligned} $

, where $p$ and $q$ are integers and $q$

$\neq 0$.

Solution

(i)

$0 . \overline{6}=0.666 \ldots$

Let $x=0.666 \ldots$

$10 x=6.666 \ldots$

$999 x=1$

$x=\frac{1}{999}$

Solution

Let $x=0.9999 \ldots$

$10 x=9.9999 \ldots$

$10 x=9+x$

$9 x=9 x$

=1

Solution

It can be observed that,

$\frac{1}{17}=0 . \overline{0588235294117647}$

There are 16 digits in the repeating block of the decimal expansion of $\frac{1}{17}$.

Solution

Terminating decimal expansion will occur when denominator $q$ of rational number $\frac{p}{q}$ is either of $2,4,5,8,10$, and so on…

$\frac{9}{4}=2.25$

$\frac{11}{8}=1.375$

$\frac{27}{5}=5.4$

It can be observed that terminating decimal may be obtained in the situation where prime factorisation of the denominator of the given fractions has the power of 2 only or 5 only or both.

Solution

3 numbers whose decimal expansions are non-terminating non-recurring are as follows.

$0.505005000500005000005 \ldots$

$0.7207200720007200007200000 \ldots 0.080080008000080000080000008 \ldots$

Solution

$ \frac{5}{7}=0 . \overline{714285} $

$\frac{9}{11}=0 . \overline{81}$

3 irrational numbers are as follows.

$0.73073007300073000073 \ldots$

$0.75075007500075000075 \ldots \quad 0.79079007900079000079 \ldots$

Solution

As the decimal expansion of this number is non-terminating non-recurring, therefore, it

is an irrational number.

(ii)

$ \sqrt{225}=15=\frac{15}{1} $

It is a rational number as it can be represented in $\frac{p}{q}$ form.

(iii) 0.3796

As the decimal expansion of this number is terminating, therefore, it is a rational number.

(iv) $7.478478 \ldots=7 . \overline{478}$

As the decimal expansion of this number is non-terminating recurring, therefore, it is a rational number.

(v) $1.10100100010000 \ldots$

As the decimal expansion of this number is non-terminating non-repeating, therefore, it is an irrational number.