The x-component of the resultant of several vectors

The component of a vector is

Find a unit vector in the direction of the resultant of the vectors hati+2hatj+3hatk,-hati+2hatj+hatk and 3hati+hatj .

The velocity of a particle is v=6hati+2hatj-2hatk The component of the velocity parallel to vector a=hati+hatj+2hatk invector from is

X- component of vec(a) is twice of its Y- component. If the magnitude of the vector is 5sqrt(2) and it makes an angle of 135^(@) with z-axis then the components of vector is:

Two vectors vecA and vecB lie in a plane, another vector vecC lies outside this plane, then the resultant of these three vectors i.e. vecA+vecB+vecC

The unit vector parallel to the resultant of the vectors vecA=2hati+4hatj+2hatk and vecB=-2hati+4hatj-hatk is

The unit vector parallel to the resultant of the vectors vecA=4hati+3hatj+5hatk and vecB=-hati+3hatj-8hatk is :

The ratio of maximum and minimum magnitude of the resultant of two vectors vecA and vecB is 3:2. The relation between A and B is

A graph of the x-component of the electric field as a function of x in a region of space is shown in figure. The y- and z-components of the electric field are zero in this region. If the electric potential is 10 V at the origin, then the potential at x = 2.0 m is

If vecA= 6hati- 6hatj+5hatk and vecB= hati+ 2hatj-hatk , then find a unit vector parallel to the resultant of vecA & vecB .