Let a three- dimensional vector `vecV` satisfy the condition , `2vecV + vecV xx ( hati + 2hatj ) = 2hati + hatk` . If `3|vecV| = sqrtm` . Then find the value of m.

Find a unit vector perpendicular to each of the vectors hati+2hatj-3hatk and hati-2hatj+hatk .

Find the projection of the vector veca=3hati+2hatj-4hatk on the vector vecb=hati+2hatj+hatk .

If vecu = 2hati - 2hatj + 3hatk and the final velocity is vecv = 2hati - 4hatj + 5hatk and it is covered in a time of 10 sec, find the acceleration vector.

The norm of vector vecV=3veci-sqrt2vecj is

Vectors 2hati+2hatj-2hatk,5hati+yhatj+hatk and -hati+2hatj+2hatk are coplanar then find the value of y.

Vectors 5hati+yhatj+hatk,2hati+2hatj-2hatk and -hati+2hatj+2hatk are coplaner then find the value of y.

Find the unit vector perpendicular to the two vectors hati+2hatj-hatk and 2hati+3hatj+hatk .

The velociies of A and B are vecv_(A)= 2hati + 4hatj and vecv_(B) = 3hati - 7hatj , velocity of B as observed by A is

The linear velocity of rotating body is given by vecv = vecomega xx vecr where vecomega is the angular velocity and vecr is the radius vector. The angular velocity of body vecomega = hati - 2hatj + 2hatk and this radius vector vecr = 4hatj - 3hatk , then |vecv| is

The scalar product of the vector hati+hatj+hatk with a unit vector along the sum of the vectors 2hati+4hatj-5hatk and lamda hati+2hatj+3hatk is equal to one. Find the value of lamda .