MCQ
$\int x .\frac{{\ln \,\,\,\left( {x\,\, + \,\,\sqrt {1\, + \,{x^2}} } \right)}}{{\sqrt {1\, + \,{x^2}} }} \, dx$ equals :
- ✓$\sqrt {1 + {x^2}} $ $ln$ $\left( {x\,\, + \,\,\sqrt {1\, + \,{x^2}} } \right)$ $- x + c$
- B$\frac{x}{2}$. $ln^2$ $\left( {x\,\, + \,\,\sqrt {1\, + \,{x^2}} } \right)$ $- \frac{x}{{\sqrt {1\,\, + \,\,{x^2}} }}$ $+ c$
- C$\frac{x}{2}$. $ln^2$ $\left( {x\,\, + \,\,\sqrt {1\, + \,{x^2}} } \right)$ $+ \frac{x}{{\sqrt {1\,\, + \,\,{x^2}} }}$ $+ c$
- D$\sqrt {1 + {x^2}} $ $ln$ $\left( {x\,\, + \,\,\sqrt {1\, + \,{x^2}} } \right)$ $ +x + c$