Download App

STD 12 - 7.1 inderfinite integral — JEE STD 11 Science — Question

Gujarat BoardEnglish MediumSTD 11 ScienceJEESTD 12 - 7.1 inderfinite integral4 Marks
MCQ
$\int_{}^{} {\frac{1}{{{{\log }_x}e}}dx = } $
  • A
    $\log {\log _x}e + c$
  • B
    $\frac{1}{{{{({{\log }_x}e)}^2}}} + c$
  • $x\log \left( {\frac{x}{e}} \right) + c$
  • D
    None of these

Answer

Correct option: C.
$x\log \left( {\frac{x}{e}} \right) + c$
c
(c)$\int_{}^{} {\frac{1}{{{{\log }_x}e}}\,dx = \int_{}^{} {{{\log }_e}x\,dx} = x\log x - x + c} $
$ = x({\log _e}x - {\log _e}e) + c = x{\log _e}\left( {\frac{x}{e}} \right) + c.$

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

JEE STD 11 Science question papersGujarat Board STD 11 Science question papersGujarat Board question paper generator

Similar questions

If $A = \left[ {\begin{array}{*{20}{c}}5&2\\3&1\end{array}} \right],$then ${A^{ - 1}}$=
Let $A B C$ be an isosceles triangle in which $A$ is at $(-1,0), \angle A=\frac{2 \pi}{3}, A B=A C$ and $B$ is on the positive $\mathrm{x}$-axis. If $\mathrm{BC}=4 \sqrt{3}$ and the line $\mathrm{BC}$ intersects the line $y=x+3$ at $(\alpha, \beta)$, then $\frac{\beta^4}{\alpha^2}$ is :
The value of $\sum\limits_{r = 0}^{n - 1} {\frac{{^n{C_r}}}{{^n{C_r} + {\,^n}{C_{r + 1}}}}} $ equals
A square piece of tin of side $30\,cm$ is to be made into a box without top by cutting a square from each corner and folding up the flaps to form a box. If the volume of the box is maximum, then its surface area (in $cm ^2$ ) is equal to $............$.
Three vertices of parallelogram are $(1, 3), (2, 0)$ and $(5, 1)$. Then its fourth vertex is
If in a geometric progression $\left\{ {{a_n}} \right\},\;{a_1} = 3,\;{a_n} = 96$ and ${S_n} = 189$ then the value of $n$ is
If $f(x) = {e^x}g(x),g(0) = 2,g'(0) = 1$, then $f'(0)$ is
Let $g(x)=3 f\left(\frac{x}{3}\right)+f(3-x)$ and $f^{\prime \prime}(x)>0$ for all $\mathrm{x} \in(0,3)$. If $\mathrm{g}$ is decreasing in $(0, \alpha)$ and increasing in $(\alpha, 3)$, then $8 \alpha$ is
$50^{\text {th }}$ root of a number $x$ is $12$ and $50^{\text {th }}$ root of another number $y$ is $18$ . Then the remainder obtained on dividing $( x + y )$ by $25$ is $........$.
$\int\limits_0^{\frac{1}{2}} {\,\,\frac{1}{{1\,\, - \,\,{x^2}}}\,\,\ell n\,\,\frac{{1\, + \,x}}{{1\, - \,x}}} \,dx$ is equal to :