An electron of charge 'e' is revolving in a circular orbit of radius r around a nucleus with speed v. The equivalent current is

An electron of charge e is moving in a circular orbit of radius r around a nucleus, at a frequency v. The magnetic moment associated with the orbital motion of the electron is

An electron of charge e is moving in a circular orbit of radius r around a nucleus, at a frequency v. The magnetic moment associated with the orbital motion of the electron is

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

An electron of charge e moves in a circular orbit of radius r round a nucleus the magnetic field due to orbit motion off the electron at the site of the nucleus is B . The angular velocity omega of the electron is

In Bohr's model electrons are revolving in a circular orbits around the nucleus called as

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

If a charge q is moving in a circle of radius r with speed v, then the equivalent current will be :

In an atom, an electron moves in an orbit of radius r with a speed v , the equivalent current is.