If a electron velocity is `(2hati+3hatj)` and it subjected to a magnetic field `4hatk` then

If a electron velocity is (2hatixx3hatj) and it subjected to a magnetic field 4hatk then

A charged particle has acceleration veca=2hati+xhatj in a magnetic field vecB=-3hati+2hatj-4hatk .Find the value of x .

The accelertion of a electron at a certain moment in a magnetic field B=2hati+3hatj+4hatk is a=xhati+hatj-hatk . The value of x is

If the velocity of a particle is (2hati+3hatj-4hatk) and its acceleration is (-hati+2hatj+hatk) and angle between them in (npi)/(4) . The value of n is .

A proton is projected with velocity vecV=2hati in a regionn where magnetic field vecB=(hati+3hatj+4hatk)muT and electric field vecE=10hatimuV//m . Then find out the net acceleration of proton:

An electric charge +q moves with velocity vecv=3hati+4hatj+hatk ,in an electromagnetic field given by: vecE=3hati+hatj+2hatk and vecB=hati+hatj+3hatk .The y -component of the force experienced by +q is:

If veca = 2hati -3hatj-1hatk and vecb =hati + 4hatj -2hatk " then " veca xx vecb is

Deduce the condition for the vectors 2hati + 3hatj - 4hatk and 3hati - alpha hatj + bhatk to be parallel.

The angle between two vectors -2hati+3hatj+k and hati+2hatj-4hatk is

The angle between two vectors -2hati+3hatj+k and hati+2hatj-4hatk is