Calculate the force acting on an electron moving with a velocity `(3hati+3hatj)m.s^(-1)` in a magnetic field of strength `(2hatj+3hatk)` tesla.

A electron is moving with a velocity vecv=(hati+2hatj)m.s^(-1) in the magnetic field vecB=(2hati+2hatj)Wb.m^(-2) . Determine the magnitude and direction of the force acting on the electron. Charge of an electron is -1.6xx10^(-19)C.

An electron enters an electric field having intensity vecE=3hati+6hatj+2hatkV.m^(-1) and a magnetic field having induction vecB=2hati+3hatjT with a velocity vecv=2hati+3hatjm.s^(-1) . The magnitude of the force acting on the electron is (Given e=-1.6xx10^(-19)C )

Calculate the unit vector along vecA=3hati+4hatj-hatk .

An electron is moving northwards with a velocity 10^(7)m/s in a magnetic field of 3 T directed eastwards. Calculate the instantaneous force on the electron.

find the projection of the vector hati-3hatj-7hatk on the vector 7hati-hatj-8 hatk

find the projection of the vector hati+2hatj+3hatk on the vector 5hati-2hatj+4 hatk

The angle between hati and line of the intersection of the planes vecr.( hati+2 hatj+ 3 hatk)=0 and vecr.(3 hati+3 hatj+ hatk)=0 is __

The coordinates of the point of intersection of the lines vecr=(hati+hatj-hatk)+lambda(3hati-hatj) and vecr=(4hati-hatk)+mu(2hati+3hatk)

Find the projection of the vector hati+3hatj+7hatk on the vector 7hati-hatj+8hatk .