The wave number of first line in Balmer series of hydrogen spectrum is (Rydberg constant, `R_H = 109,678 cm^-1`) nearly

The wave length of H_beta line in the Balmer series of hydrogen spectrum is equal to (R = Rydberg constant)

Calculate the frequency and wave number of H_a line of Balmer series in hydrogen spectrum.

The wave number of the series limiting line for the Lyman series for hydrogen atom is (R = 109678 cm^-1 )

Find the energy of the electron in eV in the third Bohr orbit of the hydrogen atom. ( Rydberg's constant R = 1.097 xx10^7 m^-1 Planck's constant (h) = 6.63xx10^-34 J.S , velocity of light in air (c) = 3xx 10^8 m//s)

The energy of the electron in the ground state of hydrogen atom is -13.6 eV . Find the Rydberg's constant and the wavelength of the first line of Paschen series

The H_a line of the Balmer series of hydrogen spectrumhasa wavelength 6560xx10^-10m .Calculate the wavelength of H_b line of the Balmar series.

An electron jumps from the 4^(th) orbit to the 2^(nd) orbit of hydrogen atom. Given the Rydberg's constant R=10^5cm^-1 . The frequency in Hz of the emitted radiation is

Among the first lines of Lyman, Balmer, Paschen and Brackett series in hydrogen spectra which has higher energy

The radius of the second Bohr orbit for hydrogen atom is________. [Plank's constant, h = 6.6262 xx 10^-34 Js mass of electron = 9.109 xx 10^-31 kg charge on electron, e = 1.602 xx 10^-19 C]

The wavelength of the H_a line of Balmer series is 6560 Aoverset@ . Calculate the wavelength of the first line of Lyman series