If a and b are two non-collinear vectors such that x a +y b = 0, Then write the values of x and y.

We have, x a +y b = 0 x=0 and y=0 [ a and b are non-collinear vectors]

If a and b are two non-collinear vectors such that x a +y b = 0, …

If the lines $\frac{2 x-1}{4 a}=\frac{y-1}{3}=\frac{2-z}{-1}$ and $\frac{x}{1}=\frac{y}{2 a}=\frac{z}{3}$ are perpendicular to each other, then find the value of a.

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Write $\overrightarrow{\text{PQ}}+\overrightarrow{\text{RP}}+\overrightarrow{\text{QR}}$ in the simplified form.

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Determine order and degree (if defined) of differential equations given in Exercise.
$\frac{\text{d}^{4}{\text{y}}}{\text{d}\text{x}^{4}}+\text{sin}(\text{y"'})=0$

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If $\vec{a}$ is a vector and $m$ is a scalar quantity and $m \vec{a}=\overrightarrow{0}$ then what alternative values of $\vec{a}$ and $m$ are possible?

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If matrix A = $\begin{bmatrix} 1 & -1 \\ -1 & 1 \\ \end{bmatrix}$ and A² = kA, then write the value of k.

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Evaluate the following integrals:
$\int\log_\text{x}\text{xdx}$

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If P(A) = $\frac{6}{11}$, P(B) = $\frac{5}{11}$ and $\mathrm{P}(\mathrm{A} \cup \mathrm{B})=\frac{7}{11}$, find P(B|A)

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$\text{If} \overrightarrow{\text{a}} = 7\hat{\text{i}} + \hat{\text{j}} - 4\hat{\text{k}}$ and $\overrightarrow{\text{b}} = 2\hat{\text{i}} - 6\hat{\text{j}} + 3\hat{\text{k}},$ then find projection of $\overrightarrow{\text{a}}\text{on} \overrightarrow{\text{b}}.$

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Compute $\left[\begin{array}{ccc} {-1} & {4} & {-6} \\ {8} & {5} & {16} \\ {2} & {8} & {5} \end{array}\right]+\left[\begin{array}{ccc} {12} & {7} & {6} \\ {8} & {0} & {5} \\ {3} & {2} & {4} \end{array}\right]$

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Find value of $x$, if $\left|\begin{array}{cc}2 & 4 \\ 5 & 1\end{array}\right|=\left|\begin{array}{cc}2 x & 4 \\ 6 & x\end{array}\right|$

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