Calculate longest wavelength of Paschen series. Given `R=1.097xx10^(7)m^(-1)`.

The shortest wavelength in the balmer series is (R=1-097xx10^7m^-1)

Calculate the wavelength for the first three lines in Paschen series. (GivenRH = 1.097 xx10^7 m^(-1) )

the wavelength limit present in the pfund series is (R=1-097xx10^7m^-1)

Wavelength of the first line of Paschen series is - (R = 109700 cm^-1 )

Which electronic transition in a hydrogen atom, starting from the orbit n=7, will produce infrared light of wavelength 2170 nm? (Given: R_(H)=1.09677xx10^(7)M^(-1))

Calculate the shortest wavelength in Paschen series if the longest wavelength in Balmar series is 6563 A@ .

Using Bohr's formula for energy quantisation, determine (i) the largest wavelength in Balmer series of hydrogen atom spectrum and (ii) the excitation energy of n = 3 level of He^(+) ion. Given R = 1.097 xx 10^(7) m^(-1)

[" The ratio of wave numbers associated with "],[" longest wave length of Paschen series for "Li^(2+)],[" ion to the shortest wavelength of Brackett series "],[" of H-atom would be."]

A hydrogen atom in an excited state emits a photon which has the longest wavelength of the Paschen series. Further emissions from the atom cannot inculde the