Statement 1: The magnetic field as magnetic field does no work on the charged particle.
Statement 2: force (magnetic) on the wire is `int dF=int idveclxxvecB`

When a charged particle enters a uniform magnetic field its kinetic energy

Statement 1: A magnetic field independent of time can change the velocity of a charged particle. Statement 2: It is not possible to change the velocity of a particle in a magnetic field as magnetic field does no work on the charged particle.

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

Statement-1 Magnetic force is always onon-central while the electric force may be central Statement-2 magnetic field can acclerate a charged particle Statement-3 Consider a long, straight wire of radius R, carrying a current distributed uniformly over its cross-section. The magnitude of the magnetic field is maximum at surface of the wire.

When would a moving charged particle travel undeviated in a uniform magnetic field ?

A charged particle enters a uniform magnetic field perpendicular to it. The magnetic field

The energy of a charged particle moving in uniform magnetic field does not change-Explain.

In magnetic field, for a charged particle (in motion) match the following table

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

Statement-1 : A changing electric field produces a magnetic field Statement-2: A changing magnetic field produces an electric field.