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

Which of the following best describes the emission spectrum of atomic hydrogen

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

The third line of the Balmer series spectrum of a hydrogen-like ion of atomic number Z equals to 108.5 nm . The binding energy of the electron in the ground state of these ions is E_(n) . Then

Why many lines are observed in the hydrogen emission spectrum ?

The wavelength of the third line of the Balmer series for a hydrogen atom is -

The wavelength of the third line of the Balmer series for a hydrogen atom is -

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

The first emission line of Balmer series in H spectrum has the wave number equal to :

In the spectrum of singly ionized helium , the wavelength of a line abserved is almost the same as the first line of Balmer series of hydrogen . It is due to transition of electron

Assertion: Hydrogen atom consists of anly one electron but its emission spectrum has may lines. Reason: Only Lyman series is found in the absorption spectrum of hydrogen atom whereas in the emission spectrum, all the series are found.