If `lambda` = wavelength of hydrogen atom for the transition n = 3 to n'= 1, then the wavelength of the doubly ionised lithium ion for the same transition is

The ground state energy of hydrogen atom is 13.6 eV . Hence the energy of the ground level in doubly ionizeds lithium is what?

The electronic transition from n=2 to n=1 will produce shortest wavelength in:

The electron in hydrogen atom jump from n_i = 3 orbit to n_f = 2 orbit. If R is the Rydberg constant then the wavelength lambda of the emitted radiation is

If the series limit of wavelength of the Lyman series for the hydrogen atom is 912 overset@A , then the series limit of wavelength for the Balmer series of the hydrogen atom is:

If the ionisation potential for hydrogen atom is 13.6 eV, then the wavelength of light required for the ionisation of hydrogen atom would be: