Download App

STD 12 - 9. differential equations — JEE STD 11 Science — Question

Gujarat BoardEnglish MediumSTD 11 ScienceJEESTD 12 - 9. differential equations4 Marks
MCQ
The general solution of the differential equation, $x \left( {\frac{{dy}}{{dx}}} \right) = y \cdot \ln \left( {\frac{y}{x}} \right)$ is :
where $c$ is an arbitrary constant.
  • A
    $y = xe^{1 -cx}$
  • B
    $y = xe^{1 + cx}$
  • C
    $y = ex . e^{cx}$
  • all of the above

Answer

Correct option: D.
all of the above
d

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 $A = \left| {\,\begin{array}{*{20}{c}}{ - 1}&2&4\\3&1&0\\{ - 2}&4&2\end{array}\,} \right|$and $B = \left| {\,\begin{array}{*{20}{c}}{ - 2}&4&2\\6&2&0\\{ - 2}&4&8\end{array}\,} \right|$, then $B$ is given by
If $\lim _{x \rightarrow \infty}\left(\sqrt{x^{2}-x+1}-a x\right)=b$, then the ordered pair $(a, b)$ is:
$\mathop {Lim}\limits_{n\,\, \to \,\,\infty } $ $\frac{{{1^2}\,\,n\,\, + \,\,{2^2}\,\,(n\, - \,1)\,\, + \,\,{3^2}\,\,(n\, - \,2)\,\, + \,\,.....\,\, + \,\,{n^2}\,.\,\,1}}{{{1^3}\,\, + \,\,{2^3}\,\, + \,\,{3^3}\,\, + \,\,......\,\, + \,\,{n^3}}}$ is equal to :
$\left| {\,\begin{array}{*{20}{c}}1&5&\pi \\{{{\log }_e}e}&5&{\sqrt 5 }\\{{{\log }_{10}}10}&5&e\end{array}\,} \right| = $
If $\int\limits_0^a {\frac{{dx}}{{\sqrt {x + a} \, + \,\sqrt x }}\,\,\,\, = \,\,\,\,} \int\limits_0^{\frac{\pi }{8}} {\frac{{2\,\tan \theta }}{{\sin 2\theta }}\,d\theta } \,$, then the value of $‘a’$ is equal to $(a > 0)$
Difference between maximum and minimum values of $f(x) = x^4e^{-x^2} \ \ \forall x \in R,$  is - 
The system of equations
$
\begin{array}{l}
x+y+z=6 \\
x+2 y+5 z=9 \\
x+5 y+\lambda z=\mu
\end{array}
$
has no solution if
$\int_{}^{} {{{\tan }^2}x\;dx} $ is equal to
In the figure, $A H K F, F K D E$ and $H B C K$ are unit squares, $A D$ and $B F$ intersect in $X$. Then, the ratio of the areas of triangles $A X F$ and $A B F$ is
Let $y = y ( x )$ be the solution of the differential equation $\cos x \frac{d y}{d x}+2 y \sin x=\sin 2 x$ $x \in\left(0, \frac{\pi}{2}\right) .$ If $y (\frac{\pi}{3})=0,$ then $y (\frac{\pi}{4})$ is equal to