Choose the correct answer from the given four option. The solutio…

Choose the correct answer from the given four options.
The distance of the plane $\vec{\text{r}}\Big(\frac{2}{7}\hat{\text{i}}+\frac{3}{7}\hat{\text{j}}-\frac{6}{7}\hat{\text{k}}\Big)=1$ from the origin is:

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If the system of equations $x + ay = 0,$ $az + y = 0$ and $ax + z = 0$ has infinite solutions, then the value of $a$ is

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The area of the region bounded by the lines $x=1, x=2$, and the curves $x\left(y-e^x\right)=\sin x$ and $2 x y=2 \sin x+x^3$ is

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If $a, b$ and $c$ be three non-zero vectors, no two of which are collinear. If the vector $a + 2b$ is collinear with $ c$ and $b + 3c$ is collinear with a, then ($\lambda $ being some non-zero scalar) $a + 2b + 6c$ is equal to

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If $\text{f(x)}=\sqrt{1-\sqrt{1-\text{x}^2}},$ then f(x) is:

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Let a conic $\mathrm{C}$ pass through the point $(4,-2)$ and $\mathrm{P}(\mathrm{x}, \mathrm{y}), \mathrm{x} \geq 3$, be any point on $\mathrm{C}$. Let the slope of the line touching the conic $\mathrm{C}$ only at a single point $\mathrm{P}$ be half the slope of the line joining the points $P$ and $(3,-5)$. If the focal distance of the point $(7,1)$ on $C$ is $d$, then $12 \mathrm{~d}$ equals ...........

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${d \over {dx}}(x{e^{{x^2}}}) = $

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Let $A =$ $\left[ {\begin{array}{*{20}{c}}{x + \lambda }&x&x\\x&{x + \lambda}&x\\x&x&{x + \lambda }\end{array}} \right]$ , then $A^{-1}$ exists if

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Let $\alpha \in R$ be such that the function

$f(x)=\left\{\begin{array}{ll} \frac{\cos ^{-1}\left(1-\{x\}^{2}\right) \sin ^{-1}(1-\{x\})}{\{x\}-\{x\}^{3}}, & x \neq 0 \\ \alpha, & x=0 \end{array}\right.$

is continuous at $x=0,$ where $\{x\}=x-[x],[x]$ is the greatest integer less than or equal to $X$.

Then :

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$\int_{-\pi}^\pi \sin ^5 x d x=?$

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