Deduce an expression for the frequency of revolution of a charged particle in a magnetic field and show that it is independent of the velocity or energy of the particle.

Deduce the expression for the frequency of revolution of a charged particle in a magnetic field and show that this is independent of the velocity or energy of the particle.

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

Show that the frequency of revolution, of a charged particle (in the X-Y plane), in a uniform magnetic field vecB(=Bhatk) is independent of its speed. Which pratical machine makes use of this fact? What is the frequency of the alternating electric field used in this machine?

A charged particle enters a magnetic field H with its initial velocity making an angle of 45^(@) with H . The path of the particle will be

In a cyclotron, the angular frequency of a charged particle is independent

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

Show that the kinetic energy of the particle moving in a magnetic field remains constant