In a hydrogen atom, an electron of charge 'e' revolves in an orbit of radius r with speed v. Prove that the magnetic moment associated with the electron is given by `(evr)/2` .

The orbital speed of an electron orbiting around the nucleus in a circular orbit of radius r is v. Then the magnetic dipole moment of the electron will be

Magnetic dipole moment of revolving electron is

What is the magnetic moment of electron due to its orbital motion.

The electron in a hydrogen atom is moving with a speed of 2*3xx10^6ms^-1 in an orbit of radius 0*53oversetoA . Calculate the magnetic moment of revolving electron.

If n is the number of unpaired electrons, the magnetic moment (in BM) of transition metal//ion is given by

In Bohr's model if hydrogen atom, the electron circulates around nucleus in a path of radius 0.5overset@A at a frequency of 6.8 xx 10^15 rev//s . The magnetic field at the centre will be

The energy of an electron in the 1st Bohr orbit of hydrogen atom is

The valence electron in the lithium atom is moving with a speed of 1.8 xx 10^(6)"m/s" in an orbit of radius 152 Å. Neglecting presence of other electrons in the atom, the magnetic moment of the valence electron is

An electron in an atom revolves around the nucleus in an orbit of radius 0.53 overset (@)(A) .Calculate the equivalent magnetic moment, if the frequency of revolution of electron is 6.8 xx 10^9 MHz .