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Question: The energy corresponding to one of the lines in the Paschen series for \(H\)atoms is \(18.16 \times ...

The energy corresponding to one of the lines in the Paschen series for HHatoms is 18.16×1020J18.16 \times {10^{ - 20}}{\text{J}}. Find the quantum numbers for transition which produce this line.

Explanation

Solution

To answer this question, you should recall the concept of spectral lines of a hydrogen atom. Bohr’s theory and the various transition series when an excited electron comes back to the lower energy state. Once the electrons in the gas are excited, they make transitions between the energy levels.
The formula used:
1λ=R(1n121n22)cm - 1\dfrac{1}{\lambda } = R\left( {\dfrac{1}{{{n_1}^2}} - \dfrac{1}{{{n_2}^2}}} \right){\text{c}}{{\text{m}}^{{\text{ - 1}}}}where RRis Rydberg constant, nnis the shell and 1λ\dfrac{1}{\lambda }is the wavenumber, R=109678cm - 1R = 109678{\text{c}}{{\text{m}}^{{\text{ - 1}}}}

Complete step by step answer:
For the Paschen series of the hydrogen atom, n1=3{n_1} = 3.
We know that energy is given by: E=hcλE = \dfrac{{hc}}{\lambda }.
From here we can find the value of wavenumber
E=18.16×1020JE = 18.16 \times {10^{ - 20}}{\text{J}}
1λ=913571.794m - 1\Rightarrow \dfrac{1}{\lambda } = 913571.794{{\text{m}}^{{\text{ - 1}}}}
Substituting the value:
1λ=RZ2(1n12 1n22)  \dfrac{1}{\lambda } = R{Z^2}\left( {\dfrac{1}{{{n_1}^2}}{\text{ }} - \dfrac{1}{{{n_2}^{2}}}} \right)\;
Substituting the values, we have:
913572.794=109678×(1)2(132 1n2)\Rightarrow 913572.794 = 109678 \times {(1)^2}\left( {\dfrac{1}{{{3^2}}} - {\text{ }}\dfrac{{1}}{{{n^2}}}} \right)
Solving and rearranging:
1100×8.3296=191n2\Rightarrow \dfrac{1}{{100}} \times 8.3296 = \dfrac{1}{9} - \dfrac{1}{{{n^2}}}.
n2=35.95155\Rightarrow {n^2} = 35.95155.
Ultimately, we will have:
n6\Rightarrow n \cong 6.
Hence, we can conclude that the principal quantum number for this electron is = 6

Note:
You should know that four quantum numbers can be used to completely describe all the attributes of a given electron belonging to an atom, these are: Principal quantum number, denoted bynn; Orbital angular momentum quantum number (or azimuthal quantum number), denoted by  l\;l; Magnetic quantum number, denoted by ml{m_l}; The electron spin quantum number, denoted by ms{m_s}. The spectral series are classified as:
– Lyman series
– Balmer series
– Paschen series
– Bracket series
– Pfund series