Calculate the frequency of the spectrical line emitted when an electron in `n = 3` in H de-excited to the ground state `R_(H) = 109737 cm^(-1)`

Calculate the energy and frequency of the radiation emitted when an electron jumps from n=3 to n=2 in a hydrogen atom.

The velocity of electron in a certain bohr orbit bears the ration 1.275 to the velocity of light a. What is the quentum (n) of orbit ? b. Calculate the wave number of radiation emitted when the electron jumps from (n + 1) state to the ground state (R) = 1.0987 xx 10^(5) cm^(-1)

Find the energy difference between n=4 and n=3 levels of hydrogen and calculate the frequency of the radiaiton emitted when an electron transits between these levels. (Plank's constant h=6.626 xx 10^(-34)Js) .

Calculate the wavelength of a photon emitted when an electron in H- atom maker a transition from n=2 to n=1

A hydrogen like ion He^(o+) (Z = 2) is exposed to electromagnetic waves of 256.4 Å The excited electron gives out induced radiation .Find the wavelength of the induced radiation when the electron de-excites back to the ground state (R = 109677 cm^(-1))

What is the maximum number of emission lines when the excited electron of a H atom in n = 6 drop to the ground state?

What is the maximum number of emission lines when the excited electron of a H atom in n = 6 drop to the ground state?

What is the maximum number of emission lines obtained when the excited electron of a H atom in n = 5 drops to the ground state?

Calculate the wave number and energy of the spectral line emitted by an excited hydrogen atom corresponding to n_(1)= 3 and n_2 = 5.

Find the wavelength present in the radiation emitted when hydrogen atoms emitted to n = 3 states return to their ground state.