When a charged particle moving with velocity `vec(V)` is subjected to a magnetic field of induction `vec(B)` the force on it is non-zero. This implies that:

When a charged particle moving with velocity vecv is subjected to a magnetic field of induction vecB , the force on it is non-zero. This implies that

When a charged particle moving with velocity vecv is subjected to a magnetic field of induction vecB , the force on it is non-zero. This implies that

Force on a charged particle moving with velocity vecv subjected to a magnetic field is zero. This means:

When a charged particle moving with a velocity vecv is subjected to a magnetic field vecB , the force acting on it is non zero. Would the particle gain any energy?

When a charged particle, moving with a velocity v, is subjected .to a magnetic field, the force on it is non-zero. This implies that

A charged particle is moving with velocity 'V' in a magnetic field of induction B . The force on the paricle will be maximum when

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

A charged particle moving with velocity vis subjected to electric field E and magnetic field B. The particle will go undeflected if