The force acting on a charge q in both electric and magnetic field, stimulateneously is

The force acting on a charge 'q' moving with a velocity V in a magnetic field of induction B is given by

Force acting on a moving charged particle in a region of electric and magnetic fields is called

Motion of charged particle in combined electric & magnetic field

Assertion (A),If electrons travel undefeccted by the electric field E and magnetic field B then the velocity of electrons is given by V=e/b . Reason (R ) : When both electric and magnetic field are applied simultaneously on electron beam. If force due to electric field is equal and opposite to force due to magnetic field then they travel undeflected.

What is the force acting on a charge moving in a magnetic field? Briefly describe two important consequences of this force.

A force vecF acting on an electric charge q, in presence of an electromagnetic field, moves the charge parallel to the magnetic field with velocity vecv . The vecF is equal to (where vecE and vecB are electric field and magnetic field respectively)

The force acting on a particle of charge q moving in a uniform magnets field with velocity v is

What is the force acting on a moving charge in a uniform magnetic field? Discuss the cases when the force is maximum and minimum and define the unit of magnetic field vecB .

Write an expression in a vector form for the Lorentz magnetic force vecF on a charge Q moving with velocity vecV in a magnetic field vecB . What is the direction of the magnetic force?