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Mathematics : Integrals

Multiple Choice Questions

631.

$\int (1 + x - x^{- 1}) e^{x + x^{- 1}} dx is equal to ˸$

$(1 + x) e^{x + x^{- 1}} + C$
$(x - 1) e^{x + x^{- 1}} + C$
$- {xe}^{x + x^{- 1}} + C$
${xe}^{x + x^{- 1}} + C$

632.

$\int_{- 2}^{2} |\begin{matrix} [x] \end{matrix}| dx is equal to$

633.

$\int_{0}^{1} \sin (2 \tan^{- 1} (\sqrt{\frac{1 + x}{1 - x}})) dx is equal to$

$\frac{π}{6}$
$\frac{π}{4}$
$\frac{π}{2}$
$π$

634.

$\int_{0}^{3} \frac{3 x + 1}{x^{2} + 9} dx$ is equal to :

$\log (2 \sqrt{2}) + \frac{π}{12}$
$\log (2 \sqrt{2}) + \frac{π}{2}$
$\log (2 \sqrt{2}) + \frac{π}{6}$
$\log (2 \sqrt{2}) + \frac{π}{3}$

635.

If [2, 6] is divided into four intervals of equal length, then the approximate value of $\int_{2}^{6} \frac{1}{x^{2} - x} dx$ using Simpson's rule, is

0.3222
0.2333
0.5222
0.2555

636.

$If f (x) = \frac{1}{x^{2}} \int_{3}^{x} (2 t - 3 f' (t)) dt, then f' (t), then f' (3) is equal to$

$\frac{- 1}{2}$
$\frac{- 1}{3}$
$\frac{1}{2}$
$\frac{1}{3}$

637.

$\int \frac{dx}{(x + 100) \sqrt{x + 99}} = f (x) + c \Rightarrow f (x)$

2(x + 100)^1/2
3(x + 100)^1/2
$2 \tan^{- 1} (\sqrt{x + 99})$
$2 \tan^{- 1} (\sqrt{x + 100})$

638.

$\int \frac{3 - x^{2}}{1 - 2 x + x^{2}} e^{x} dx = e^{x} f (x) + c \Rightarrow f (x)$

$\frac{1 + x}{1 - x}$
$\frac{1 - x}{1 + x}$
$\frac{1 - x}{x - 1}$
$\frac{x - 1}{1 + x}$

639.

$\int \frac{\sqrt{\cot (x)}}{\sin (x) \cos (x)} dx = - f (x) + c \Rightarrow f (x)$

$2 \sqrt{\tan (x)}$
$- 2 \sqrt{\tan (x)}$
$- 2 \sqrt{\cot (x)}$
$2 \sqrt{\cot (x)}$

640.

$\int_{\frac{- π}{2}}^{\frac{π}{2}} \log (\frac{2 - \sin (θ)}{2 + \sin (θ)}) dθ$ is equal to