A difference of 2.3 eV separates two energy levels in an atom. What is the frequency of radiation emitted when the atom make a transition from the upper level to the lower level?

Using Bohr.s postulates, derive the expression for the frequency of radiation emitted when electron in hydrogen atom undergoes transition from higher energy state (quantum number n_1 ) to the lower state ( n_f ). When electron in hydrogen atom jumps from energy state n_1 = 4 to n_f = 3, 2, 1, indentify the spectral series to which the emission lines belong.

There are discrete energy levels in atoms. It was first experimentally demonstrated by

The ionization energy of hydrogen atom in the ground state is 1312 kJ "mol"^(-1) . Calculate the wavelength of radiation emitted when the electron in hydrogen atom makes a transition from n = 2 state to n = 1 state (Planck’s constant, h = 6.626 xx 10^(-34) Js , velocity of light, c = 3 xx 10^8 m s^(-1) , Avogadro’s constant, N_A = 6.0237 xx 10^23 "mol"^(-1) ).

In H-atom electron jumps form 3 to 2 energy level, the energy released is

Obtain an expression for the frequency of radiation emitted when a hydrogen atom de-excites from level n to level (n–1). For large n,show that this frequency equals the lassical frequency of revolution of the electron in the orbit.

Calculate the ionisation energy of hydrogen atom as well as energy needed to promote its electron from first energy level to third energy level

Draw the energy level diagram of hydrogen atom. Calculate the energy value upto fifth excited energy states of hydrogen.

In the energy level sequence for a multi electron atom, 4f- orbial lies between