Integral w/ ln: Struggling? Get Help Here!

[Yankel]

Hello

I am struggling with this integral:

\[\int \ln\left(\sqrt{x}+1 \right)\,dx\]I tried integrating by parts (multiplying the integral by 1), however I got stuck with another integral I couldn't solve on the way

\[\int \frac{1}{\sqrt{x}+1}dx\]Thanks !

 

[MarkFL]

I would try a substitution involving the argument of the log function first, then integration by parts. :D

Spoiler

\(\displaystyle w=\sqrt{x}+1\,\therefore\,dx=2(w-1)\,dw\)

and we have:

\(\displaystyle I=2\int(w-1)\ln(w)\,dw\)

Integration by parts:

\(\displaystyle u=\ln(w)\,\therefore\,du=\frac{1}{w}\,dw\)

\(\displaystyle dv=(w-1)dw\,\therefore\,v=\frac{w^2}{2}-w=\frac{w(w-2)}{2}\)

\(\displaystyle I=2\left(\frac{w(w-2)}{2}\ln(w)-\frac{1}{2}\int w-2\,dw \right)\)

\(\displaystyle I=w(w-2)\ln(w)-\frac{1}{2}w^2+2w+C\)

Back-substitute for $w$:

\(\displaystyle w^2-2w=x-1\)

\(\displaystyle -\frac{1}{2}w^2+2w=-\frac{x}{2}+\sqrt{x}+\frac{3}{2}\)

Hence:

\(\displaystyle I=(x-1)\ln\left(\sqrt{x}+1 \right)-\frac{x}{2}+\sqrt{x}+C\)

 

[mathworker]

I think its better you do by parts first.Then you may arrive at \(\displaystyle \int\frac{\sqrt{x}}{\sqrt{x}+1}dx\)
Edit : made a mistake earlier,Okay may be that's what you have asked(Bandit)

---

i would do it by letting,
\(\displaystyle \begin{align*}x&=t^2\\dx&=2tdt\end{align*}\)
so,

Spoiler

\(\displaystyle \int\frac{2t}{t+1}dt=2t-2\log(t+1)\)

 

[MarkFL]

I think its better you do by parts first.Then you may arrive at \(\displaystyle \int\frac{\sqrt{x}}{\sqrt{x}+1}dx\)
Edit : made a mistake earlier

How do you arrive at this?

 

[mathworker]

\(\displaystyle \int\log\sqrt{x}+1dx=logx\int1dx-\int\frac{1}{\sqrt{x}+1}\frac{1}{2\sqrt{x}}xdx=x\log{x}-\frac{1}{2}\int\frac{\sqrt{x}}{\sqrt{x}+1}\)

 

[Prove It]

Hello

I am struggling with this integral:

\[\int \ln\left(\sqrt{x}+1 \right)\,dx\]I tried integrating by parts (multiplying the integral by 1), however I got stuck with another integral I couldn't solve on the way

\[\int \frac{1}{\sqrt{x}+1}dx\]Thanks !

[tex]\displaystyle \begin{align*} \int{ \ln{ \left( \sqrt{x} + 1 \right) } \, dx} &= \int{ 1 \cdot \ln{ \left( \sqrt{x} + 1 \right) } \, dx} \end{align*}[/tex]

Now applying integration by parts with [tex]\displaystyle \begin{align*} u = \ln{ \left( \sqrt{x} + 1 \right) } \implies du = \frac{1}{2\sqrt{x} \, \left( \sqrt{x} + 1 \right) } \, dx \end{align*}[/tex] and [tex]\displaystyle \begin{align*} dv = 1\, dx \implies v = x \end{align*}[/tex] and the integral becomes

[tex]\displaystyle \begin{align*} \int{ 1 \cdot \ln{ \left( \sqrt{x} + 1 \right) } \, dx} &= x\ln{ \left( \sqrt{x} + 1 \right) } - \int{ \frac{x}{2\sqrt{x}\,\left( \sqrt{x} + 1 \right) } \, dx} \end{align*}[/tex]

Now let [tex]\displaystyle \begin{align*} t = \sqrt{x} + 1 \implies dt = \frac{1}{2\sqrt{x}}\,dx \end{align*}[/tex] and the integral becomes

[tex]\displaystyle \begin{align*} x\ln{ \left( \sqrt{x} + 1 \right) } - \int{ \frac{x}{2\sqrt{x}\,\left( \sqrt{x} + 1 \right) } \, dx} &= x\ln{ \left( \sqrt{x} + 1 \right) } - \int{ \frac{ (t - 1)^2 }{t} \,dt } \\ &= x\ln{ \left( \sqrt{x} + 1 \right) } - \int{ \frac{t^2 - 2t + 1}{t}\,dt} \\ &= x\ln{ \left( \sqrt{x} + 1 \right) } - \int{ t - 2 + \frac{1}{t} \, dt} \\ &= x\ln{ \left( \sqrt{x} + 1 \right) } - \left( \frac{t^2}{2} - 2t + \ln{|t|} \right) + C \\ &= x\ln{ \left( \sqrt{x} + 1 \right) } - \frac{t^2}{2} + 2t - \ln{|t|} + C \\ &= x\ln{ \left( \sqrt{x} + 1 \right) } - \frac{ \left( \sqrt{x} + 1 \right) ^2}{2} + 2 \left( \sqrt{x} + 1 \right) - \ln{ \left| \sqrt{x} + 1 \right| } + C \end{align*}[/tex]

 

[Yankel]

Thanks everyone, very helpful