In hydrogen spectrum, the spectral line of Balmer series having lowest wavelength is

In a hydragen spectrum third line of Balmer's series having wavelength lambda . Find the binding energy o the ground state.

The lines in Balmer series have their wavelengths lying between

In hydrogen spectrum, the shortest wavelength in Balmer series is the lambda . The shortest wavelength in the Brackett series will be

Obtain the ratio of the shortest wavelength of spectral line in the Lyman series to the longest wavelength of spectral line in the Balmer series.

In hydrogen spectrum shortest wave length for lyman series line is lamda , then find the longest wavelength of Balmer series line in He^+ ion spectrum

A : wavelength for first line of any series of hydrogen spectrum is biggest among all other lines of the same series . R : Wavelength of spectral line for an electron transition if inversely related to difference in the energy level involved in the transition .

Assertion : For Balmer series of hydrogen spectrum, the value n_(1)=2 and n_(2)=3,4,5 . Reason : The value of n for a line in Balmer series of hydrogen spectrum having the highest wave length is 4 and 6 .

For the first member of Balmer series of hydrogen spectrum, the wavelength is lamda . What is the wavelength of the second member?

The wavelength of the first spectral line in the Balmer series of hydrogen atom is 6561 Å. If the wavelength of the spectral line in the Balmer series of singly-ionized helium atom is 1215 when electron jumps from n_2 to n_1 , then n_2 and n_1 , are