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 function $f(x) = {\log _e}(x - [x])$ is
  • $R-Z$
  • B
    $R$
  • C
    $(0, + \infty )$
  • D
    $Z$

Answer

Correct option: A.
$R-Z$
a
(a) The domain of function ${\log _e}\left\{ {x - [x]} \right\}$ is $R-Z$,

because $[x]$ is a greatest integer whose value is equal to or less than zero.

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

The sum of all the solutions of the equation $(8)^{2 x}-16 \cdot(8)^x+48=0$ is :
If $(1 + \sin A)(1 + \sin B)(1 + \sin C)$$ = (1 - \sin A)(1 - \sin B)(1 - \sin C),$ then each side is equal to
$\int_{ - 1}^1 {\log \frac{{2 - x}}{{2 + x}}\,dx} = $
A coin is tossed $3$ times. The probability of obtaining at least two heads is
$3\,\,\overrightarrow {OD} + \overrightarrow {DA} + \overrightarrow {DB} + \overrightarrow {DC} = $
Let $\overrightarrow{\mathrm{a}}=\hat{\mathrm{i}}+2 \hat{\mathrm{j}}+\hat{\mathrm{k}}$ and $\overrightarrow{\mathrm{b}}=2 \hat{\mathrm{i}}+7 \hat{\mathrm{j}}+3 \hat{\mathrm{k}}$. Let $L_{1}: \overrightarrow{\mathrm{r}}=(-\hat{\mathrm{i}}+2 \hat{\mathrm{j}}+\hat{\mathrm{k}})+\lambda \overrightarrow{\mathrm{a}}, \lambda \in \mathrm{R}$ and $L_{2}: \vec{r}=(\hat{j}+\hat{k})+\mu \vec{b}, \mu \in R$ be two lines. If the line $L_{3}$ passes through the point of intersection of $L_{1}$ and $L_{2}$, and is parallel to $\vec{a}+\vec{b}$, then $L_{3}$ passes through the point:
$\sin {\rm{ }}\left[ {3\,{{\sin }^{ - 1}}\left( {\frac{1}{5}} \right)} \right] = $
Eleven books consisting of $5$ Mathematics, $4$ Physics and $2$ Chemistry are placed on a shelf. The number of possible ways of arranging them on the assumption that the books of the same subject are all together is
If $f(x)$ is invertible and twice differentiable function satisfying $f '(x) = \int\limits_0^{f(x)} {{f^{ - 1}}} (t)dt,\,\forall x\, \in \,R$ and $f '(0) =1$ then $f '(1)$ can be 
Solve the system of the following equations  $\frac{2}{x}+\frac{3}{y}+\frac{10}{z}=4 ; \frac{4}{x}-\frac{6}{y}+\frac{5}{z}=1 ; \frac{6}{x}+\frac{9}{y}-\frac{20}{z}=2$