d dx , , [ ^ - 1 ( x (3 - x) 1 - 3x ) ] =

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MCQ

${d \over {dx}}\,\,\left[ {{{\tan }^{ - 1}}\left( {{{\sqrt x (3 - x)} \over {1 - 3x}}} \right)} \right] =$

A
${1 \over {2(1 + x)\,\sqrt x }}$
B
${3 \over {(1 + x)\,\sqrt x }}$
C
${2 \over {(1 + x)\,\sqrt x }}$
✓
$\frac{3}{{2(1 + x)\sqrt x }}$

✓

Answer

Correct option: D.

$\frac{3}{{2(1 + x)\sqrt x }}$

d
(d) $\frac{d}{{dx}}\,\left( {{{\tan }^{ - 1}}\frac{{(\sqrt x (3 - x)}}{{1 - 3x}}} \right)$

Put $\sqrt x = \tan \theta \Rightarrow \theta = {\tan ^{ - 1}}\sqrt x $

$\frac{d}{{dx}}\left( {{{\tan }^{ - 1}}\frac{{(\tan \theta (3 - {{\tan }^2}\theta )}}{{1 - 3{{\tan }^2}\theta }}} \right)$

$= \frac{d}{{dx}}\left( {{{\tan }^{ - 1}}\frac{{(3\tan \theta - {{\tan }^3}\theta )}}{{1 - 3{{\tan }^2}\theta }}} \right)$

$= \frac{d}{{dx}}({\tan ^{ - 1}}(\tan 3\theta ) = \frac{d}{{dx}}(3\theta )$

$= \frac{d}{{dx}}(3.{\tan ^{ - 1}}\sqrt x ) = \frac{3}{{2\sqrt x (1 + x)}}$.

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