hat{i} cdot (hat{k} times hat{j}) + hat{j} cd | vedclass

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(C) We know the properties of unit vector cross products:
$\hat{k} 	imes \hat{j} = -\hat{i}$
$\hat{i} 	imes \hat{k} = -\hat{j}$
$\hat{i} 	imes \

Vedclass · Accepted Answer

$-1$

Vedclass · Answer

(C) We know the properties of unit vector cross products:
$\hat{k} 	imes \hat{j} = -\hat{i}$
$\hat{i} 	imes \hat{k} = -\hat{j}$
$\hat{i} 	imes \hat{j} = \hat{k}$
Substituting these values into the expression:
$\hat{i} \cdot (-\hat{i}) + \hat{j} \cdot (-\hat{j}) + \hat{k} \cdot (\hat{k})$
Using the dot product property $\hat{i} \cdot \hat{i} = 1$,$\hat{j} \cdot \hat{j} = 1$,and $\hat{k} \cdot \hat{k} = 1$:
$= -(\hat{i} \cdot \hat{i}) - (\hat{j} \cdot \hat{j}) + (\hat{k} \cdot \hat{k})$
$= -1 - 1 + 1 = -1$.

$\hat{i} \cdot (\hat{k} \times \hat{j}) + \hat{j} \cdot (\hat{i} \times \hat{k}) + \hat{k} \cdot (\hat{i} \times \hat{j}) = \_\_\_\_$

Similar Questions

If $a, b, c$ are non-coplanar vectors,then the point of intersection of the line passing through the points $2a+3b-c$ and $3a+4b-2c$ with the line joining the points $a-2b+3c$ and $a-6b+6c$ is

If $a = 2i + 2j + 3k$,$b = -i + 2j + k$,and $c = 3i + j$,then $a + tb$ is perpendicular to $c$ if $t = $

$ABCD$ is a parallelogram and $P$ is a point on the segment $AD$ dividing it internally in the ratio $3:1$. If the line $BP$ meets the diagonal $AC$ in $Q$,then $AQ:QC$ equals

If $a \perp b$ and $(a+b) \perp (a+mb)$,then $m$ is equal to

If the vectors $a=\hat{i}-\hat{j}+2 \hat{k}$,$b=2 \hat{i}+4 \hat{j}+\hat{k}$,and $c=\lambda \hat{i}+\hat{j}+\mu \hat{k}$ are mutually orthogonal,then $(\lambda, \mu)$ is equal to

Vedclass Test Series

Exam Paper Generator

Online Exam Module