MHT CET 2025 21st April Morning Shift | Vector Algebra Question 15 | Mathematics

Let $\bar{a}, \bar{b}$, and $\bar{c}$ be unit vectors. Suppose that $\overline{\mathrm{a}} \cdot \overline{\mathrm{b}}=\overline{\mathrm{a}} \cdot \overline{\mathrm{c}}=0$ and if the angle between $\overline{\mathrm{b}}$ and $\overline{\mathrm{c}}$ is $\frac{\pi}{6}$, then $\overline{\mathrm{a}}$ is

$\pm(\bar{b} \times \bar{c})$

$\pm \frac{1}{2}(\overline{\mathrm{~b}} \times \overline{\mathrm{c}})$

$\quad \pm 2(\overline{\mathrm{~b}} \times \overline{\mathrm{c}})$

$\quad \pm 4(\overline{\mathrm{~b}} \times \overline{\mathrm{c}})$

MHT CET 2025 21st April Morning Shift

MCQ (Single Correct Answer)

-0

If $\overline{\mathrm{a}}$ and $\overline{\mathrm{b}}$ are unit vectors such that $|\overline{\mathrm{a}}+\overline{\mathrm{b}}|=\sqrt{3}$, then the angle between $\bar{a}$ and $\bar{b}$ is

$\frac{\pi}{6}$

$\frac{\pi}{3}$

$\frac{\pi}{4}$

$\frac{\pi}{2}$

MHT CET 2025 21st April Morning Shift

MCQ (Single Correct Answer)

-0

Three vectors $\hat{\mathrm{i}}-\hat{\mathrm{k}}, \lambda \hat{\mathrm{i}}+\hat{\mathrm{j}}+(1-\lambda) \hat{\mathrm{k}}$ and $\mu \hat{\mathrm{i}}+\lambda \hat{\mathrm{j}}+(1+\lambda-\mu) \hat{\mathrm{k}}$ represents coterminous edges of a parallelopiped, then the volume of the parallelopiped depends on.

only $\lambda$

only $\mu$

both $\lambda$ and $\mu$

neither $\lambda$ nor $\mu$

MHT CET 2025 21st April Morning Shift

MCQ (Single Correct Answer)

-0

The line of intersection of the planes $\bar{r} \cdot(3 \hat{i}-\hat{j}+\hat{k})=1 \quad$ and $\quad \bar{r} \cdot(\hat{i}+4 \hat{j}-2 \hat{k})=2 \quad$ is parallel to the vector

$\quad 2 \hat{\mathrm{i}}+7 \hat{\mathrm{j}}+13 \hat{\mathrm{k}}$

$-2 \hat{\mathrm{i}}-7 \hat{\mathrm{j}}+13 \hat{\mathrm{k}}$

$-2 \hat{\mathrm{i}}-7 \hat{\mathrm{j}}-13 \hat{\mathrm{k}}$

$\quad-2 \hat{\mathrm{i}}+7 \hat{\mathrm{j}}+13 \hat{\mathrm{k}}$

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