In a sample of three H-atoms , all in the 5th excited state, electrons make a transition to 1st excited state. The maximum number of different spectral lines observed will be :

In a mixture of sample of H-atoms and He ions, electrons in all the H-atoms and He^+ ions are present in n = 4^"th" state. Then, find maximum number of different spectral lines obtained when all the electrons make transition from n=4 upto ground state

As an electron makes a transition from an excited state to the ground state of a hydrogen - like atom /ion

If an electron transits from n = 7 to n = 1 in a hydrogen atom then the maximum number of spectral lines that can form will be?

If electron make transition from 7^(th) excited state to 2^(nd) state in H atom sample find the max. number of spectral lines observed.

In a H-like sample, electrons make transition from 4^(th) excited state upto 2^(nd) state. Then ,

The electron in hydrogen atom in a sample is in n^(th) excited state, then the number of differrent spectrum lines obtained in its emission spectrum will be

Hydrogen atoms are excited from ground state to the principal quantum number 5. Number of spectral lines observed will be

Hydrogen atoms are excited from ground state of the principle quantum number 4 . Then the number of spectral lines observed will be

The electrons in hydrogen atoms are raised from ground state to third excited state. The number of emission lines will be

In a sample of H-atoms in ground state electrons make transition from ground state to a particular excited state where path length is 5 times de Broglie wavelength , electrons make back transition to the ground state producing all possible photons. If photon having 2nd highest energy of this sample can be used to excite the electron in a particular excited state of Li^(2+) ion then find the final excited state of Li^(2+) ion .