If the value of Rydberg constant is `1.097xx10^(7) m^(-1)` , what will be the wavelengths of the emitted radiations in case of the following transitions in a hydrogen atom ?
(ii) From n=5 to n=1

If the value of Rydberg constant is 1.097xx10^(7) m^(-1) , what will be the wavelengths of the emitted radiations in case of the following transitions in a hydrogen atom ? (iii) From n=5 to n=3

If the value of Rydberg constant is 1.097xx10^(7) m^(-1) , what will be the wavelengths of the emitted radiations in case of the following transitions in a hydrogen atom ? (i) From n=5 to n=2

If the value of Rydberg constant is 1.097xx10^(7) m^(-1) , what will be the wavelengths of the emitted radiations in case of the following transitions in a hydrogen atom ? (iv) From n= oo to n=1

Given the value of Rydberg constant is 10^7m^(-1) , the wave number of the last line of the Balmer series in hydrogen spectrum will be

If the value of Rydberg constant of hydrogen is 109737 cm^-1 determine the longest and shortest wavelengths of the Balmer series.

If the value of Rydberg constant of hydrogen is 109737 cm^(-1) , determine the longest and the shortest wavelength of the Balmer series.

Calculate the wavalength of radiation emitted when electron in a hydrogen atom jumps from n=oo to n=1 .

The ionization energy of hydrogen atom in the ground state is 1312 kJ "mol"^(-1) . Calculate the wavelength of radiation emitted when the electron in hydrogen atom makes a transition from n = 2 state to n = 1 state (Planck’s constant, h = 6.626 xx 10^(-34) Js , velocity of light, c = 3 xx 10^8 m s^(-1) , Avogadro’s constant, N_A = 6.0237 xx 10^23 "mol"^(-1) ).

The Rydberg constant for hydrogen is 109737 cm^(-1) . Find out the lowest wavelength among the spectral lines of Balmer series.

The ionisationn potential of sodium is 4.946xx10^(2)kJ*mol^(-1) . Calculate the wavelength of the radiation required to ioinise a sodium atom.