The third line of the Balmer series, in the emission spectrum of the hydrogen atom, is due to the transition from the

When is H_(alpha) line of the Balmer series in the emission spectrum of hydrogen atom obtained ?

The most intense line in the Brackett series of the spectrum of atomic hydrogen is the transition :-

The most intense line in the Brackett series of the spectrum of atomic hydrogen is the transition :-

The spectral line at 434 nm in the Balmer series of the hydrogen spectrum corresponds to a transition from nth orbit. What is the value of n?

The ratio of the wave lengths of the first line in the Lyman series of the spectrum of Hydrogen atom and the first line in the Balmer series of the spectrum of He^(+) is

The ratio of the wave lengths of the first line in the Lyman series of the spectrum of Hydrogen atom and the first line in the Balmer series of the spectrum of He^(+) is

The shortest wavelength spectral line in the brackett series of the spectrum of atomic hydrogen is the transition :

The shortest wavelength spectral line in the brackett series of the spectrum of atomic hydrogen is the transition :