The moment of inertia of an electron in `n^(th)` orbit will be

Energy of an electron in n^(th) Bohr orbit is given as

Energy of an electron in n^(th) Bohr orbit is given as

The angular momentum of an electron in n^(th) orbit is given by

Statement -I : The angular momentum of an electron in n^(th) orbital it same for all H-like species . Statement -II : The velocity of electron in m^(th) orbit is equal for all H-like species.

The frequency of revolution of an electron in nth orbit is f_(n) . If the electron makes a transition from nth orbit to (n = 1) th orbit , then the relation between the frequency (v) of emitted photon and f_(n) will be

The frequency of revolution of an electron in nth orbit is f_(n) . If the electron makes a transition from nth orbit to (n = 1) th orbit , then the relation between the frequency (v) of emitted photon and f_(n) will be

What is the moment of inertia of the electron moving in second Bohr orbit of a hydrogen atom ?

The difference between the radii of n^(th) and (n + 1)^(th) orbits of hydrogen atoms is equal to the radius of (n-1)^(th) orbit of hydrogen. The angular momentum of the electron in the n^(th) orbit is ___ (h is Planck's constant)

Kinetic energy of electron in n^("th") orbit in H-atom

Magnetic moment of an electron in n^("th") Bohr orbit is proportional to