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  4. The electron in a hydrogen atom jumps back from an excited state to ground state, by emitting a photon of wavelength λ0=(16/15 R ), where R is Rydberg's constant. In place of emitting one photon, the electron could come back to ground state by

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Q. The electron in a hydrogen atom jumps back from an excited state to ground state, by emitting a photon of wavelength $\lambda_{0}=\frac{16}{15 R }$, where $R$ is Rydberg's constant. In place of emitting one photon, the electron could come back to ground state by

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Solution:

Using the Rydberg's Formula for the given transition
$\frac{1}{\lambda_{0}}=R\left[\frac{1}{1^{2}}-\frac{1}{n^{2}}\right]$
solving we get $n=4$. Thus electron can come to ground state by emitting two or three photons such that the sum of energies of each transition remain same so we can use
$\frac{h c}{\lambda_{0}}=\frac{h c}{\lambda_{1}}+\frac{h c}{\lambda_{2}}$
$\Rightarrow \frac{1}{\lambda_{0}}=\frac{1}{\lambda_{1}}+\frac{1}{\lambda_{2}}$
and $\frac{h c}{\lambda_{0}}=\frac{h c}{\lambda_{1}}+\frac{h c}{\lambda_{2}}+\frac{h c}{\lambda_{3}}$
$\Rightarrow \frac{1}{\lambda_{0}}=\frac{1}{\lambda_{1}}+\frac{1}{\lambda_{2}}+\frac{1}{\lambda_{3}}$