The wavelength of a spectral line emitted by hydrogen atom inn the Lyman series as `(16)/(15R) cm`, what is the value of `n_(2)`? (R=Rydberg constant)

The wavelength of a spectral line emmited by hydrogen atom in the lyman series is 16/15R cm. what is the value of n_(2)

What is the lowest energy of the spectral line emitted by the hydrogen atom in the Lyman series? (h = Planck's constant, c = velocity of light, R = Rydberg's constant).

Using Bohr's postulates, derive the expression for the total energy of the electron revolving in n^(th) orbit of hydrogen atom. Find the wavelength of H_(alpha) line, given the value of Rydberg constant, R = 1.1 xx 10^(7) m^(1)

The wavelength of spectral line in Lyman series for electron jumping back from 2nd orbit is

The first emission line of Balmer series in He^(+) - spectrum has the wave no .in (Cm^(_1)) (R-Rydberg constant)

How many spectral lines are emitted by atomic hydrogen excited to the n-th energy level?

The wave number of the first emission line in the Balmer series of H - Spectrum is (n)/(36)R . The value of 'n' is. (R = Rydberg constant):

Calculate the wave number and energy of the spectral line emitted by an excited hydrogen atom corresponding to n_(1)= 3 and n_2 = 5.

The wavelength of the spectral line when the electron is the hydrogen atom undergoes a transition from the energy level 4 to energy level 2 is.

The wavelength of the first spectral line in the Balmer series of hydrogen atom is 6561 A^(@) . The wavelength of the second spectral line in the Balmer series of singly - ionized helium atom is