An electron in the ground state of hydrogen atom is revolving in anticlock-wise direction in a circular orbit of radius `R`.
(i) Obtain an experssion for the orbital magnetic dipole moment of the electron.
(ii) The atom is placed in a uniform magnetic induction `vec(B)` such that the plane - normal of the electron - orbit makes an angle of ` 30^(@)` with the magnetic induction . Find the torque experienced by the orbiting electron.

An electron in the ground state of hydrogen atom is revolving in anti-clockwise direction in the circular orbit of radius R as shown in figure. Obtain an expression for the orbital magnetic dipole moment of the electron.

An electron in the ground state of hydrogen atom is revolving in anti-clockwise direction in a circular orbit of radius R. (i) The expression for the orbital magnetic moment of the electrton is (eh)/(n pi m) . Find n square (ii) The atom is placed in a uniform magnetic induction B such that the normal to the plane of electron’s orbit makes an angle of 30^(@) with the magnetic induction. The torque experienced by the orbiting electron is (ehB)/(n pi m) . Find n square

An electron in the ground state of hydrogen atom is revolving in anticlockwise direction in circular orbit of radius R. The orbital magnetic dipole moment of the electron will be

Magnetic dipole moment of revolving electron is

An electron in the ground state of hydrogen atom is revolving in anti-clockwise direction in the circular orbit of radius R as shown in figure. The atom is placed in a uniform magnetic induction B such that the plane normal of the electron orbit makes an angle 30^(@) with the magnetic induction. Find the torque experienced by the orbiting electron.

The minimum magnetic dipole moment of electron in hydrogen atom is

An electron in the ground state of hydrogen atom is revolving in anti-clock wise direction in a circular orbit. The atom is placed in a magnetic filed such that the normal to the electron orbit makes an angle of 30° with the magnetic field. Find the torque experienced by the orbiting electron.

Show that the orbital magnetic dipole moment of a revolving electron is evr//2.