For the hydrogen atom `E_(n)=-1/(n^(2))R_(H)`
Where `R_(H)=2.178xx10^(-18)J`
Assuming that the electrons in other shells exert no effect, find the minimum no. of Z (atomit no.) at which a transition from the second energy level to the first results in teh emission of an X-ray. Given that the lowest energy rays have `lamda=4xx10^(-8)m`.

At what atomic number would a transition from n=2"to"n=1 energy level result in emission of photon of lambda= 3xx10^(-8)m ?

If the lowest energy X-rays have lambda=3.055xx10^(-8) m, estimate the minimum difference in energy between two Bohr's orbits such that an electronic transition would correspond to the emission of an X-ray. Assuming that the electrons in other shells exert no influence, at what Z (minimum) would a transition form the second level to the first result in the emission of an X-ray?

What is the energy difference and the frequency of light emitted when the electron in a hydrogen atom undergoes transition from the energy level n = 4 to the energy n = 3 given that the value of Rydberg constant is 1.0974 xx 10^(7)m^(-1) ?

Estimate the difference in energy between 1st and 2nd Bohr orbits for hydrogen atom. At what minimum atomic number, a transition from n = 2 to n=1 energy level would result in the emission of X-rays with lambda=3 xx 10^(-8) m? Which hydrogen atom like species does this atomic number correspond to?

The electron energy in hydrogen atom is given by E_(n)=-(2.18 xx 10^(-18))/(n^2) J . Calculate the energy required to remove an electron completely from the n=2 orbit. What is the longest wavelength of light in cm that can be used to cause this transition?

The energy of an electron in the first Bohr's orbit of a hydrogen atom is -2.18 xx10^(-18)J . Its energy in the second orbit would be

In what region of the electromagnetic spectrum would you look the spectral line resulting from the electronic transition from the tenth to the fifth electronic level in the hydrogen atoms ? (R_(H)=1.10xx10^(5) cm^(-1))

Hydrogen atom: The electronic ground state of hydrogen atom contains one electron in the first orbit. If sufficient energy is provided, this electron can be promoted to higher energy levels. The electronic energy of a hydrogen-like species (any atom//ions with nuclear charge Z and one electron) can be given as E_(n)=-(R_(H)Z^(2))/(n^(2)) where R_(H)= "Rydberg constant," n= "principal quantum number" The energy required to promote the ground state electron of H-atom to the first excited state is: When an electron returns from a higher energy level to a lower energy level, energy is given out in the form of UV//Visible radiation.

At which temperature will the translational kinetic energy of H-atom equal to that for H-atom of first line Lyman transition? (Given N_(A)=6xx10^(23) )

Calculate the energy emitted when electron of 1.0 gm atom of Hydrogen undergo transition giving the spectrtal lines of lowest energy is visible region of its atomic spectra. Given that, R_(H) = 1.1xx10^(7) m^(-1) , c=3xx10^8m//sec , h=6.625xx10^(-34) Jsec .