The wavelength of the radiation emitted, when in a hydrogen atom electron falls from infinity to stationary state 1 , would be ( Rydberg constant `= 1.097 × 107m^(-1)` )

The wavelength of the radiation emitted , when in a hydrogen atom electron falls from infinity to stationary state 1 , would be : (Rydberg constant = 1.097 xx 10^(7) m^(-1) )

The wavelength of radiation emitted when in He^(+) electron falls infinity to stationary state would be (R =1.098 xx 10 ^7 m^(-1))

The wavelength of the radiation emitted when an electron falls from Bohr 's orbit 4 to 2 in H atom is

What is the wavelength of the radiation emitted when the electron in a hydrogen atom jumps from n = to n = 2 ?

Calculate the wavelength and energy of radiation emitted for the electronic transition from infinity (oo) to stationary state one of the hydrogen atom ("R = 1.09678 "xx 10^(7) m^(-1))

Calculate the wavelength and energy for radiation emitted for the electron transition from infinite (oo) to stationary state of the hydrogen atom R = 1.0967 xx 10^(7) m^(-1), h = 6.6256 xx 10^(-34) J s and c = 2.979 xx 10^(8) m s^(-1)

Calculate the two highest wavelength of the radiation emitted when hydrogen atoms make transition from higher state to n = 2

Calculate the wavelength of radiation emitted producing a line in the Lyman series ,when as electron falls from fourth stationary in hydrogen atom (R_(H) = 1.1 xx 10^(7)m^(-1)

Find the wavelength present in the radiation emitted when hydrogen atoms emitted to n = 3 states return to their ground state.

Calculate the wavelength of radiation emitted when He^(+) makes a transtion from the state n = 3 to the state n = 2