1. Tardigrade
  2. Question
  3. Physics
  4. An electron in the ground state of Hydrogen atom goes to an excited state by absorbing 12.1 eV energy. In the course of it's transition to lower energy states, the possible number of spectral lines will be

Question Error Report

Thank you for reporting, we will resolve it shortly

Back to Question

Q. An electron in the ground state of Hydrogen atom goes to an excited state by absorbing $12.1$ eV energy. In the course of it's transition to lower energy states, the possible number of spectral lines will be

KCETKCET 2022

Solution:

Let electron rises to $E_{n}$ state by absorbing $12.1 eV$
$E_{1}-E_{n} =12.1 \,eV $
$-13.6-E_{n} =12.1$
$ E_{n} =-13.6-12.1=-1.5 $
since $E_{n}=-\frac{13.6}{n^{2}},-\frac{13.6}{n^{2}} =-1.5 $
$ n^{2} =\frac{13.6}{1.5}=9$
$ \therefore n =3 $
i.e., electron rises to $n=3$ state.
The number of possible spectral lines emitted during its transmission to ground state is $\frac{n(n-1)}{2}=3$