Let a three-dimensional vector `vecV` satisfies the conditions, `2vecV + (hati + 2hatj) xx vecV = 2hati +hatk`. If `3|vecV|=sqrt(m)`, then find the value of m.

If the vectors 2hati-3hatj+4hatk and hati+2hatj-hatk and m hati - hatj+2hatk are coplanar, then the value of m is

Let vecu= hati+hatj, vecv = hati -hatj and vecw = hati+2hatj+3hatk . If hatn is a unit vector such that vecu.hatn =0 and vecv.hatn=0 then find the value of |vecw.hatn|

Find unit vector in direction of friction force acting on block vecv_p=7hati-2hatj, vecv_B=3hati+hatj

The velocity (in m/s) of an object changes from vecv_(1) = 10 hati + 4hatj + 2hatk "to" vecv_(2) = 4hati + 2hatj + 3hatk in 5 second. Find the magnitude of average acceleration.

A particle moves in plane with acceleration veca = 2hati+2hatj . If vecv=3hati+6hatj , then final velocity of particle at time t=2s is

Let vecu and vecv be unit vectors such that vecu xx vecv + vecu = vecw and vecw xx vecu = vecv . Find the value of [vecu vecv vecw ]

If a particle of charge 1mu C is projected into a magnetic field vecB = (2hati+yhatj – zhatk)T with a velocity vecV= (4hati +2 hatj - 6 hatk) ms^(-1) , then it passes undeviated. If it is now projected with a velocity vecV = hati + hatj , then find the force experienced by it

Two particles having position verctors vecr_(1)=(3hati+5hatj) metres and vecr_(2)=(-5hati-3hatj) metres are moving with velocities vecv_(1)=(4hati+3hatj)m//s and vecv_(2)=(alphahati+7hatj)m//s . If they collide after 2 seconds, the value of alpha is