The vector equation of the plane `bar r=(3hati+hatj)+lambda(-hatj+hatk)+mu(hati+2hatj+3hatk)`
in scalar product form is

The cartesian equation of the line barr = (hati + hatj + hatk)+ lambda(hatj + hatk) is

The vector equation of the line passing through hati-hatj+3hatk and parallel to 3hati+2hatj-5hatk is

Cartesian form of the eqution of line barr=3hati-5hatj+7hatk+lambda(2hati+hatj-3hatk) is

Chose the correct option The angle between (hati + hatj) and (hatj + hatk) is

The vector equation of the line passing through (2, 1, -1) and parallel to hati+2hatj+hatk is

The equation of the plane containing lines barr=hati+2hatj-hatk+lambda(hati+2hatj-hatk) and barr=hati+2hatj-hatk+mu(hati+hatj+3hatk) is

Find the vector equation of the plane in which the lines vecr=hati+hatj+lambda(hati+2hatj-hatk) and vecr=(hati+hatj)+mu(-hati+hatj-2hatk) lie.

The vector equation of a plane passing through three points hati+hatj-2hatk, 2hati-hatj+hatk" and " hati+2hatj+hatk is

The shortest distance between lines barr=(hati-hatj)+lambda(2hati+hatk)andbarr=(2hati-hatj)+mu(hati-hatj-hatk) is

The vector equation of the plane passing through the intersection of the planes bar r.(3hati+4hatj)=1" and "bar r.(hati-hatj-hatk)=4 and the point (1,2,-1) is