The ratio of magnetic dipole moment and angular momentum of charged body of charge q and mass m is

The ratio of magnetic dipole moment to angular momentum of electron is

Unit of magnetic dipole moment is

A: The relation between magnetic moment and angular momentum is true for every finite size body. R: Ratio of magnetic dipole moment and angular momentum is just dependent on specific charge of the body.

The ratio of magnetic dipole moment of an electron of charge e and mass m in the Bohr orbit in hydrogen to the angular momentum of the electron in the orbit is:

An electron revolves anti-clockwise around a proton in a hydrogen atom. The speed of electron is v and radius of its circular orbit is r. find (i) The magnetic field produced at the centre (ii) Magnetic dipole moment of circulating electron (iii) The ratio of magnetic moment of angular momentum of electron Strategy: A charge in motion constitutes current. Therefore, an electron moving on circle is equivalent to a current carrying loop

The rartio ("in" S 1 units) of magnetic dipole moment to that of the angular momentum of an electron of mass m kg and charge e coulomb in Bohr's orbit of hydrogen atom is

Find the ratio of magnetic dipole moment and magnetic field at the centre of a disc. Radius of disc is R and it is rotating at constant angular speed o about its axis. The disc is insulating and uniformly charged

An electron is in a circular orbit about the nucleus of an atom. Find the ratio between the orbital magnetic dipole moment vec mu and the angular momentum vec L of the electron about the center of its orbit.

Show that the ratio of the magnitic dipole moment to the angular momentum (1 = mur) is a universal constant for hydrogen atom and ions find the value

A thin disc of radius R and mass M has charge q uniformly distributed on it. It rotates with angular velocity omega . The ratio of magnetic moment and angular momentum for the disc is