An electron having charge e moves with velocity`vecv` in +x direction. An electric field acts on it along +y direction. The force on the electron acts along-

An electron having charge e moves with velocity vecn in +x direction. An electric field act on it along+y direction. The force on the electron acts along .

A particle with charge q moves with velocity vecv in a direction perpendicular to the magnetic field lines. What would be the direction of force experienced by the particle ? What is the nature of the path described by the particle ? Find the cyclotron Frequency.

An electron of charge -e and mas m is placed in a uniform electric field of intensity E. The value of E is such that the force on the electron due to the electric field is equal to its weight . Under this condition the value of E is

A charge q moves with velocity vecv at an angle theta to a magnetic field vecB . What is the force experienced by the particle?

If a particle of charge q is moving with velocity vecv along y axis and a magnetic field vecb act along z axis, find the force acting on it. What happens to its kinetic energy ? Justify.

A particle with charge q is moving with a velocity vecv in a magnetic field vecB . If the force acting on the particle is vecF then,

An electron is moving along X axis and a magnetic field is directed along Y axis. What will he the direction of magnetic force acting on the electron?

An EM wave is propagating in a medium with a velocity vecv=vhati . The instantaneous oscillating electric field of this EM wave is along +y axis. Then the direction of oscillating magnetic field of the EM wave will be along

An electric dipole is placed in a non-uniform electric field vecE . The electric field is along x direction. The dipole will experience