Math, asked by shalini6936, 5 months ago

integrate it......keep answering....... ​

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Answers

Answered by BrainlyEmpire
78

GIVEN :-

\begin{gathered}\begin{gathered}\\ \bullet\:{ \bold{ \int \dfrac{\sqrt{x}}{1+x}\:dx}}\\ \\ \end{gathered}\end{gathered}

TO FIND :-

\begin{gathered}\\ \bf \bullet \: The \: Integrate\\ \\\end{gathered}

SOLUTION :-

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{  \int \frac{2 \:  {t}^{2} }{1 +  {t}^{2} } \: dt }} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \times   \int \frac{ {t}^{2} }{1 +  {t}^{2} }  \: dt}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \times   \int \frac{ {t}^{2}  + 1 - 1}{1 +  {t}^{2} }  \: dt}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \times   \int \frac{ {t}^{2}  + 1 }{1 +  {t}^{2} }  -  \frac{1}{1 +  {t}^{2} }  \: dt}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2  \bigg(   \int \frac{ {t}^{2}  + 1 }{1 +  {t}^{2} } \:  dt -   \int\frac{1}{1 +  {t}^{2} }  \: dt} \bigg)} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2  \bigg( t  -   \int \frac{ 1 }{1 +  {t}^{2} } \:  dt  \bigg)}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \bigg(t - arctan(t) \bigg)}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \bigg( \sqrt{x}  - arctan( \sqrt{x} ) \bigg)}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2  \sqrt{x}  - 2 \: arctan( \sqrt{x} \:  ) }} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies \large{ \boxed{ \bold{ 2  \sqrt{x}  - 2 \: arctan( \sqrt{x} \:  )  + C}}} \\\end{gathered} \\ \\\end{gathered}

Answered by Anonymous
21

Answer:

SOLUTION :-

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{  \int \frac{2 \:  {t}^{2} }{1 +  {t}^{2} } \: dt }} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \times   \int \frac{ {t}^{2} }{1 +  {t}^{2} }  \: dt}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \times   \int \frac{ {t}^{2}  + 1 - 1}{1 +  {t}^{2} }  \: dt}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \times   \int \frac{ {t}^{2}  + 1 }{1 +  {t}^{2} }  -  \frac{1}{1 +  {t}^{2} }  \: dt}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2  \bigg(   \int \frac{ {t}^{2}  + 1 }{1 +  {t}^{2} } \:  dt -   \int\frac{1}{1 +  {t}^{2} }  \: dt} \bigg)} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2  \bigg( t  -   \int \frac{ 1 }{1 +  {t}^{2} } \:  dt  \bigg)}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \bigg(t - arctan(t) \bigg)}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2 \bigg( \sqrt{x}  - arctan( \sqrt{x} ) \bigg)}} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies{ \bold{ 2  \sqrt{x}  - 2 \: arctan( \sqrt{x} \:  ) }} \\ \\ \end{gathered}\end{gathered}

\begin{gathered}\begin{gathered}\\ : \implies \large{ \boxed{ \bold{ 2  \sqrt{x}  - 2 \: arctan( \sqrt{x} \:  )  + C}}} \\\end{gathered} \\ \\\end{gathered}

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