Using Bohr's formula for energy quantization, the ionisation potential of the ground state of `Li^(++)` atom is

Using Bohr's formula for energy quantization, the ionisation potential of first excited state of hydrogen atom is

Assuming Bohr's model for Li^(++) atom, the first excitation energy of ground state of Li^(++) atom is

Calculate the wavelength in Angstroms of the photon that is emitted when an electron in the Bohr's orbit, n = 2 returns to the orbit, n = 1 in the hydrogen atom. The ionisation potential of the ground state hydrogen atom is 2.17 x 10^(-11) erg per atom.

Second ionisation potential of Li,Be,B is in the order:

The ionisation energy of Li^(2+) atom in ground state is,

The potential energy of the electron present in the ground state of Li^(2+) ion is represented by :

Minimum excitation potential of Bohr's first orbit hydrogen atom is

Energy of the third orbit of Bohr's atom is

Energy of the state S_(1) in units of the hydrogen atom ground state energy is

(a) Using Bohr's second postulate of quantization of orbital angular momentum show that the circumference of the electron in the n^(th) orbital state in hydrogen atom is n times the de-Broglie wavelength associated with it. (b) The electron in hydrogen atom is initially in the third excited state. What is the maximum number of spectral lines which can be emitted which it finally moves to the ground state ?