The shortest wavelength of Balmer series of H-atom is

If the shortest wave length of Lyman series of H atom is x , then the wave length of the first line of Balmer series of H atom will be-

If the shortest wavelength of H atom in Lyman series is x, then longest wavelength in Balmer series of H–atom is

If longest wavelength of Balmer series of H atom is lambda then shortest wavelength of Lyman series will be

The shortest wavelength of Lyman series of the hydrogen atom is equal to the shortest wavelength of Balmer series of a hydrogen -like atom of atomic number Z. The value of Z is equal to

The shortest wavelength of the Brackett series of a hydrogen-like atom (atomic number of Z ) is the same as the shortest wavelength of the Balmer series of hydrogen atom. The value of z is

The shortest wavelength of the Brackett series of a hydrogen-like atom (atomic number of Z ) is the same as the shortest wavelength of the Balmer series of hydrogen atom. The value of z is

The shortest wavelength of the Brackett series of a hydrogen-like atom (atomic number of Z ) is the same as the shortest wavelength of the Balmer series of hydrogen atom. The value of z is

In terms of Rydberg constant R , the shortest wavelength in the Balmer series of the hydrogen , atom spestrum will have wavelength

The shortest wavelength of He^(+) in Balmer series is x . Then longest wavelength in the Paschene series of Li^(+2) is :-

The shortest wavelength in the Lyman series of hydrogen spectrum is 912 Å correcponding to a photon energy of 13.6eV . The shortest wavelength in the Balmer series is about