Find the energy released (in erg) when `2.0 g` atom of hydrogen undergoes transition giving a spectral line of the lowest energy in the visible region of its atomic spectra

Calculate energy in "KJ" when electrons of "0.05" gram atom of hydrogen undergo transition giving the spectral line of lowest energy in the visible region of its atomic spectrum

Calculate energy in "KJ" when electrons of "0.05" gram atom "of hydrogen undergo transition giving the spectral line of lowest energy in the visible region of its atomic spectrum

Calculate the energy emitted when electrons of 1.0 g atom of hydrogen undergo transition giving the spectral line of largest energy in the visible region of its atomic spectrum. (R_H = 1.1 xx 10^7 m^(-1), c = 3 xx 10^8 m s^(-1), h = 6.62 xx 10^(-34) J s)

Calculate the energy emitted when electron of 1.0 gm atom of Hydrogen undergo transition giving the spectrtal lines of lowest energy is visible region of its atomic spectra. Given that, R_(H) = 1.1xx10^(7) m^(-1) , c=3xx10^8m//sec , h=6.625xx10^(-34) Jsec .

The energy of n^(th) orbit is given by E_(n) = ( -Rhc)/(n^(2)) When electron jumpsfrom one orbit to another orbit then wavelength associated with the radiation is given by (1)/(lambda) = RZ^(2)((1)/(n_(1)^(2)) - (1)/ (n_(2)^(2))) When electron of 1.0 gm atom of Hydrogen undergoes transition giving the spectral line of lowest energy is visible region of its atomic spectra, the wavelength of radiation is

Which of the following series of transitions in the spectrum of hydrogen atom falls in visible region?