The magnetic momenrt of a circular orbit of radius 'r' carrying a charge 'q' and rotating with velocity v is given by .

Deduce the expression for the magnetic field induction at the centre of a circular electron orbit of radius r, and angular velocity of orbiting electron omega .

What is the magnetic moment of an electron orbiting in a circular orbit of radius r with a speed v?

The time period of an artificial satellite in a circular orbit of radius R is 2 days and its orbital velocity is v_(0) . If time period of another satellite in a circular orbit is 16 days then

The magnetic moment of an electron of charge e moving in a circular orbit of radius r with speed v is given by

Magnetic induction produced at the center of a circular loop of radius R carrying a current is 'B' The magnetic moment of the loop is

Magnetic moment of an electron of charge e moving in a circular orbit of radius r with speed v is given by

A particle of charge -q and mass m moves in a circular orbits of radius r about a fixed charge +Q .The relation between the radius of the orbit r and the time period T is

A conducting ring of radius r having charge q is rotating with angular velocity omega about its axes. Find the magnetic field at the centre of the ring.

An electron revolving in a circular orbit of radius r with a frequency v and velocity v has an orbital magnetic moment M_(0) what will be its new magnetic moment if its frequency of revolution is doubled ?