A series of lines in the spectrum of atomic H lies at wavelengths `656.46,486.27,434.17,410.29 nm`. What is the wavelength of the next line in this series?

A series of linenes in the spectrum of atomic H lies at wavelength 656.46,486.27,434.17,410.29 nm What is the wavelength of the line in this series ?

What is the maximum wavelength line in the Lyman series of He^(+) ion?

To what series does the spectral lines of atomic hydrogen belong if its wavenumber is equal to the difference between the wavenumber of the following two lines of the Balmer series 486.1 and 419.2 nm ? What is the wavelength of that line ?

What is the shortest wavelength line in the Paschen series of Li^(2+) ion?

The shortest wavelength of Balmer series of H-atom is

A certain species of ionized atoms produces emission line spectral accorduing to the Bohr's model. A group of lines in the spectrum is forming a series in which in the shortest wavelength is 22.79 nm and the longest wavelength is 41.02 nm . The atomic number of atom is Z . Based on above information, answer the following question: The series belongs to

A certain species of ionized atoms produces emission line spectral accorduing to the Bohr's model. A group of lines in the spectrum is forming a series in which in the shortest wavelength is 22.79 nm and the longest wavelength is 41.02 nm . The atomic number of atom is Z . Based on above information, answer the following question: The next to longest wavelength in the series of lines is

In the spectrum of hydrogen atom, the ratio of the longest wavelength in Lyman series to the longest wavelength in the Balmer series is:

Wavelength of first line in Lyman series is lambda . What is wavelength of first line in Balmer series?

In the spectrum of hydrogen atom, the ratio of the longest wavelength in Lyman series to the longest wavelangth in the Balmer series is: