A) \[20eV\]
B) \[79eV\]
C) \[109eV\]
D) \[34eV\]
Correct Answer: B
Solution :
| [b] Let |
| \[{{E}_{1}}=\]energy required to remove |
| \[{{e}^{-}}\] |
| from singly ionised Helium atom |
| \[=\frac{+13.6{{z}^{2}}}{{{n}^{2}}}\] |
| \[=\frac{(13.6){{(2)}^{2}}}{{{(1)}^{2}}}\] |
| \[=54.4eV\] |
| \[{{E}_{2}}=\] Energy required to remove an \[{{e}^{-}}\] from He atom |
| Given \[{{E}_{1}}=2.2{{E}_{2}}\] |
| \[\therefore {{E}_{2}}=\frac{{{E}_{1}}}{2.2}=\frac{54.4}{2.2}=24.7eV\] |
| \[\therefore \] Energy required to remove both \[{{e}^{-}}'s\] from He-atom |
| \[=24.7+54.4\] |
| \[=79.1eV\] |
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