Let a = i + j + k, , , , c = j - k and a vector b be such that a b = , c and a , , b = ,3. Then | b | equals?

Let a = i + j + k, , , , c = j - k and a vector b be such that a …

MCQ

Let $\vec a = \hat i + \hat j + \hat k,\,\,\,\vec c = \hat j - \hat k$ and a vector $\vec b$ be such that $\vec a \times \vec b = \,\vec c$ and $\vec a\, \cdot \,\vec b = \,3.$ Then $\left| {\vec b} \right|$ equals?

✓
$\sqrt {\frac{{11}}{3}} $
B
$\frac{{\sqrt {11} }}{3}$
C
$\frac{{11}}{{\sqrt 3 }}$
D
$\frac {11}{3}$

✓

Answer

Correct option: A.

$\sqrt {\frac{{11}}{3}} $

a
$\because \vec{a}=\hat{i}+\hat{j}+\hat{k} \Rightarrow|\vec{a}|=\sqrt{3}$

$\vec{c}=\hat{j}-\hat{k} \Rightarrow(\text { Given })|\bar{c}| \sqrt{2}$

Now, $\vec{a} \times \vec{b}=\vec{c}$

$\Rightarrow|\vec{a}||\vec{b}| \sin \theta=|\vec{c}|$

$\Rightarrow|\vec{a}||\vec{b}| \sin \theta=\sqrt{2}$ ........$[i]$

Also $\vec{a} \cdot \vec{b}=3$

$\Rightarrow|\vec{a}||\vec{b}| \cos \theta=3 $ ........$[ii]$

Dividing $[i]$ by $[ii],$ we get

$\tan \theta=\frac{\sqrt{2}}{3}$

$\therefore \sin \theta=\frac{\sqrt{2}}{\sqrt{11}}$

Substituting value of $\sin \theta$ in $[i]$ we get

$\sqrt{3}|\vec{b}| \frac{\sqrt{2}}{\sqrt{11}}=\sqrt{2}$

$|\vec{b}|=\frac{\sqrt{11}}{\sqrt{3}}$

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