The optimal value of the objective function is attained at the po…

Let $\text{A}=\begin{bmatrix} 2 & 3 \\ 5 & -2 \end{bmatrix}$ be such that A^-1 = kA, then k equals:

$19$
$\frac{1}{19}$
$-19$
$-\frac{1}{19}$

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Inverse of the matrix $\left[ {\begin{array}{*{20}{c}}3&{ - 2}&{ - 1}\\{ - 4}&1&{ - 1}\\2&0&1\end{array}} \right]$ is

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If a line makes angles of ${30^o}$ and ${45^o}$ with $x$ - axis and $y$ - axis, then the angle made by it with $z$ - axis is

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If $\vec a = \hat i - 2\hat j + 3\hat k,\,\,\vec b = 2\hat i + 3\hat j - \hat k\,$ and $\vec c = r\hat i + \hat j + (2r - 1\hat k)\,$ are three vectors such that $\vec c$ is parallel to the plane of $\vec a$ and $\vec b ,$ then $r$ is equal to

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lf $\int {\frac{{\tan \,\,x\,}}{{1 + \,\tan \,x\, + {{\tan }^2}\,x}}dx} $ $ = x - \frac{K}{{\sqrt A }}{\tan ^{ - 1}}\,\left( {\frac{{K\,\,\tan \,x + 1}}{{\sqrt A }}} \right) + C,$ ($C$ is a constant ofintegration), then the ordered pair $(K, A)$ is euqal to

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If A = {1, 2, 3}, then a relation R = {(2, 3)} on A is:

Symmetric and transitive only.
Symmetric only.
Transitive only.
None of these.

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Choose the correct answer from the given four options.

If $\text{P}(\text{A})=\frac{2}{5},\text{P}(\text{B})=\frac{3}{5}$ and $\text{P}(\text{A}\cap\text{B})=\frac{1}{5},$ then $\text{P}\Big(\frac{\text{A}'}{\text{B}'}\Big)\cdot\text{P}\Big(\frac{\text{B}'}{\text{A}'}\Big)$ is equas:

$\frac{5}{6}$
$\frac{5}{7}$
$\frac{25}{42}$
$1$

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A stone throw upward having speed equation $S =9.8 t-4.9 t^2$ where S in $m / s$. What will be the time to achieve maximum height ?

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If $f(x) = {x^2} - 1$ and $g(x) = 3x + 1$, then $(gof)(x) = $

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Which of the following statement is correct?

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