Find longest wavelength in Lyman series of hydrogen atom spectrum.

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

If the shortest wavelength in Lyman series of hydrogen atom is A, then the longest wavelength in Paschen series of He^(+) is:

The longest wavelength of the Lyman series for hydrogen atom is the same as the wavelength of a certain line in the spectrum of He^+ when the electron makes a trensiton from n rarr 2 . The value of n is

The longest wavelength of the Lyman series for Hydrogen atom is the same as the wavelength of a certain line in the spectrum of He^(+) when the electron makes a transition from n to 2 .The value of n is :

Assuming Rydberg’s constant ( R_H ) to be 109670 cm^(–1) , the longest wavelength line in the Lyman series of the hydrogen spectrum (in Å) is:

If the shortest wavelength of Lyman series of hydrogen atom is lambda ,then the longest wavelength of Balmer series will be

If the shortest wavelength of Lyman series of hydrogen atom is x, then the wavelength of first member of Balmer series of hydrogen atom 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