If a charged particle is at rest, what happens to the net magnetic force ?

If a charged particle kept at rest experiences an electromagnetic force,

If a charged particle at rest experiences no electromagnetic force, then The electric field must be zero

If a charged particle at rest experiences no electromagnetic force, then electric field in that region

A charged particle is at rest in the region where magnetic field and electric field are parallel. The particle will move in a

There is no change in the energy of a charged particle moving in a magnetic field although a magnetic force is acting on it . True/False.

If a charged particle enters perpendicular in the uniform magnetic field then

Assertion In non-uniform magnetic field speed of a charged particle varies. Reason Work done by magnetic force on a charged particle is always zero.

Statement 1: A charged particle is moving in a circular path under the action of a uniform magnetic field as shown in Fig. During motion kinetic energy of charged particle is costant. Statement 2: During the motion, magnetic force acting on the particle is perpendicular to instantaneous velocity.

A charged particle is moved along a magnetic field line. The magnetic force on the particle is

Assertion If the path of a charged particle in a region of uniform electric and magnetic field is not a circle, then its kinetic energy may remain constant. Reason In a combined electric and magnetic field region a moving charge experiences a net force F=qE+q(VxxB), where symbols have their usual meanings.