In a hydrogen atom , an electron of charge e revolves in an orbit of radius r with speed v . Find the magnetic moment associated with the electron .

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 .

In a hydrogen atom, an electron of charge e revolves in an orbit of radius r with a speed v. Prove that the magnetic mometn associated with the electron is given bye evr/2.

In a hydrogen atom , an electron of charge e revolves in an orbit of radius r with speed v . Find the resulting magnetic moment of the electron .

In a hydrogen atom, an electron of charge e revolves in an orbit of radius r with speed v. Find the magnitude of the resulting magnetic moment of the electron.

In a hydrogen atom, an electron carrying charge 'e' revolves in an orbit of radius 'r' with speed 'v' . Obtain an expression for the magnitude of magnetic moment of a revolving electron.

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

In a hydrogen atom the electron moves in an orbit of radius 0.5 Ao making 10 revolutions per second, the magnetic moment associated with the orbital motion of the electron will be

In a hydrogen atom, the electron moves in an orbit of radius 0*5 Å , making 10^(16)rps . Calculate the magnetic moment associated with the orbital motion of electron.