The wavelength of the radiation emitted ...

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)`)

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

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

The wavelength of the radiation emitted, when in hydrogen atom electron falls from 4 to stationary state 1, would be (Rydberg constant 1.097 xx 10^(7) m^(-1) )

The wavelength of the radiation emitted when in hydrogen atom electron falls from infinity to second state Would be (Rydberg constant 1.097 xx 10^(7) m^(-1) ).

The wavelength of the radiations emitted when in a hydrogen atom electron falls from infinity to stationary state is : (R_H = 1. 097 xx10^7 m^(-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)`)

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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)`)