Download App

Scalar Triple Product — Maths STD 12 Science — Question

Gujarat BoardEnglish MediumSTD 12 ScienceMathsScalar Triple Product1 Mark
Question
If $\big[2\vec{\text{a}}+4\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big]=\lambda\big[\vec{\text{a}}\vec{\text{c}}\vec{\text{d}}\big]+\mu\big[\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big],$ then $\lambda+\mu=$
  1. 6
  2. -6
  3. 10
  4. 8

Answer

  1. 6

Solution:

We have

$\big[2\vec{\text{a}}+4\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big]=\lambda\big[\vec{\text{a}}\vec{\text{c}}\vec{\text{d}}\big]+\mu\big[\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big]$

$\Rightarrow\big[\big(2\vec{\text{a}}+4\vec{\text{b}}\big]\times\vec{\text{c}}\big].\vec{\text{d}}=\lambda\big[\vec{\text{a}}\vec{\text{c}}\vec{\text{d}}\big]+\mu\big[\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big]$ (By definition of scalar triple product)

$\Rightarrow\big[\big(2\vec{\text{a}}\times\vec{\text{c}}\big)+\big(4\vec{\text{b}}\times\vec{\text{c}}\big)\big].\vec{\text{d}}=\lambda\big[\vec{\text{a}}\vec{\text{c}}\vec{\text{d}}\big]+\mu\big[\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big]$

$\Rightarrow\big(2\vec{\text{a}}\times\vec{\text{c}}\big).\vec{\text{d}}+\big(4\vec{\text{b}}\times\vec{\text{c}}\big).\vec{\text{d}}=\lambda\big[\vec{\text{a}}\vec{\text{c}}\vec{\text{d}}\big]+\mu\big[\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big]$

$\Rightarrow\big[2\vec{\text{a}}\vec{\text{ c }}\vec{\text{d}}\big]+\big[4\vec{\text{b}}\vec{\text{ c }}\vec{\text{d}}\big]=\lambda\big[\vec{\text{a}}\vec{\text{ c }}\vec{\text{d}}\big]+\mu\big[\vec{\text{b}}\vec{\text{ c }}\vec{\text{d}}\big]$

$\Rightarrow2\big[\vec{\text{a}}\vec{\text{c}}\vec{\text{d}}\big]+4\big[\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big]=\lambda\big[\vec{\text{a}}\vec{\text{c}}\vec{\text{d}}\big]+\mu\big[\vec{\text{b}}\vec{\text{c}}\vec{\text{d}}\big]$ $\big(\therefore\big[\lambda\vec{\text{a}}\vec{\text{b}}\vec{\text{c}}\big]=\lambda\big[\vec{\text{a}}\vec{\text{b}}\vec{\text{c}}\big]$ for any scaler $\lambda\big)$

Comparing both sides, we get

$\lambda=2$

$\mu=4$

$\therefore\lambda+\mu=2+4=6$

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "M.C.Q (1 Marks)" from Scalar Triple ProductScalar Triple Product — all question typesMaths STD 12 Science question papersGujarat Board STD 12 Science question papersGujarat Board question paper generator

Similar questions

The three points ABC have position vectors (1, x, 3), (3, 4, 7) and (y, -2, -5) are collinear then (x, y):
The transpose of a square matrix is a?
  1. rectangular matrix
  2. diagonal matrix
  3. square matrix
  4. scaler matrix
If $f(x)$ is a differentiable function, then $\mathop {\lim }\limits_{x \to a} {{af(x) - xf(a)} \over {x - a}}$ is
If $\text{f(x)}=\begin{vmatrix}0&\text{x}-\text{a}&\text{x}-\text{b}\\\text{x}+\text{a}&0&\text{x}-\text{c}\\\text{x}+\text{b}&\text{x}+\text{c}&0\end{vmatrix},$ then:
  1. f(a) = 0
  2. f(b) = 0
  3. f(0) = 0
  4. f(1) = 0
If $f(x) = (x - {x_0})g(x)$, where $g(x)$ is continuous at ${x_0}$, then $f'({x_0})$ is equal to
Given a system of inequation: $2\text{y}-\text{x}\leq4$ $-2\text{x}+\text{y}\geq-4$Find the value of s, which is the greatest possible sum of the x and y co - ordinates of the point which satisfies the following inequalities as graphed in the xy plane.
A wire of length $20 cm$ is bent in the form of a sector of a circle. The maximum area that can be enclosed by the wire is
$\int|\text{x}|^3\text{ dx}$ is equal to:
  1. $\frac{-\text{x}^4}{4}+\text{C}$
  2. $\frac{|\text{x}|^4}{4}+\text{C}$
  3. $\frac{\text{x}^4}{4}+\text{C}$
  4. none of these.
The direction cosines of the ray P(1, -2, 4) and Q(-1, 1, -2) are:
  1. $\big(-2, -3, -6\big)$
  2. $\big(2, -3, -6\big)$
  3. $\Big(\frac{2}{7},\frac{3}{7},\frac{6}{7}\Big)$
  4. $\Big(-\frac{2}{7},\frac{3}{7},-\frac{6}{7}\Big)$
If $\int_{}^{} {x\sin xdx = - x\cos x + A} $, then $A = $