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

What will the angular momentum in fourth orbit, if L is the angular momentum of the electron in the second orbit of hydrogen atom?

The work done for rotating a magnet with magnetic dipole moment m, by 90° from its magnetic meridian is n times the work done to rotate it by 60°, find value of n.

In 1959 Lyttleton and Bondi suggested that the expansion of the Universe could be explained il matter carried a net charge. Suppose that the Universe is made up of hydrogen atoms with a number density N, which is maintained a constant. Let the charge on the proton be : e_(p) =-(1+y)e where e is the electronic charge. (a) Find the critical value of y such that expansion may start. (b) Show that the velocity of expansion is proportional to the distance from the centre.

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.

In the HCl molecule, the separation between the nuclei of the two atoms is about 1.27 Å (1 Å = 10^(-10) m) . Find the approximate location of the CM of the molecule, given that a chlorine atom is about 35.5 times as massive as a hydrogen atom and nearly all the mass of an atom is concentrated in its nucleus.

A 100 kg satellite circles Earth once every 4 h in an orbit having a radius of 8000 km. Assuming that Bohr's angular momentum postulate applies to satellite just as it does to an electron in the hydrogen atom, find the quantum number of the orbit of the satellite.

The energy of an electron in hydrogen atom is -3.4 eV, then its angular momentum is ......

Show that the angular momentum about any point of a single particle moving with constant velocity remains constant throughout the motion.

A 10 kg satellite circles earth once every 2 h in an orbit having a radius of 8000 km. Assuming that Bohr’s angular momentum postulate applies to satellites just as it does to an electron in the hydrogen atom, find the quantum number of the orbit of the satellite.