Download App

STD 11- 2. Relation and Function — JEE STD 11 Science — Question

Gujarat BoardEnglish MediumSTD 11 ScienceJEESTD 11- 2. Relation and Function4 Marks
MCQ
The domain of the function $f(x) = \sqrt {\log \frac{1}{{|\sin x|}}} $ is
  • A
    $R - \{ 2n\pi ,\;n \in I\} $
  • $R - \{ n\pi ,\;n \in I\} $
  • C
    $R - \{ - \pi ,\;\pi \} $
  • D
    $( - \infty ,\;\infty )$

Answer

Correct option: B.
$R - \{ n\pi ,\;n \in I\} $
b
(b) $f(x) = \sqrt {\,\log \frac{1}{{|\sin x|}}} $ 

==> $3 + x > 0$==> $x \ne n\pi + {( - 1)^n}0$

==> $x \ne n\pi $. Domain of $f(x)  = R - \{ n\pi ,\,\,n \in I\} $.

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 $OB$ is the semi-minor axis of an ellipse, $F_1$ and $F_2$ are its foci and the angle between $F_1B$ and $F_2B$ is a right angle, then the square of the eccentricity of the ellipse is
 The number of points, where the function $f: R \rightarrow R , f ( x )=| x -1| \cos | x -2| \sin | x -1|+$ $(x-3)\left|x^{2}-5 x+4\right|$, is NOT differentiable, is.
Twelve tickets are numbered $1$ to $12$. One ticket is drawn at random, then the probability of the number to be divisible by $2$ or $3$, is
Number of triplets of $a, b \, \& \,c$ for which the system of equations,$ax - by = 2a - b$ and $(c + 1) x + cy = 10 - a + 3 b$ has infinitely many solutions and $x = 1, y = 3$ is one of the solutions, is :
$\sum\limits_{n = 1}^\infty  {\sum\limits_{k = 1}^{n - 1} {\frac{k}{{{2^{n + k}}}}} } $ is equal to 
$A$ ray of light coming from the point $(1, 2)$ is reflected at a point $A$ on the $x$-axis and then passes through the point $(5, 3)$. The coordinates of the point $A$ are
The differential equation whose solution is $A{x^2} + B{y^2} = 1$ where $A$ and $B$ are arbitrary constants is of
The normal at a variable point $P$ on an ellipse $\frac{{{x^2}}}{{{a^2}}} + \frac{{{y^2}}}{{{b^2}}}= 1$  of eccentricity e meets the axes of the ellipse in $ Q$  and $R$  then the locus of the mid-point of $QR$  is a conic with an eccentricity $e' $  such that :
General solution of $eq^n\, 2tan\theta \, -\, cot\theta  =\, -1$ is
$y = \frac{x}{{x + 1}}$ is a solution of the differential equation