How do i find the ionization level of Helium

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    Helium Ionization
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The ionization energy for He+ (Z=2) is calculated using the formula E = -13.6 z^2 / n^2, yielding a value of 54.4 eV when Z=2 and n=1. However, the commonly referenced ionization energy for neutral Helium is approximately 24.6 eV, which is often confused with the ionized state. Bohr's theory struggles to accurately calculate the ionization energy of Helium due to its assumptions about nuclear charge and electron-electron repulsion. While Bohr's model works for hydrogen-like atoms, it fails for neutral Helium, indicating that quantum mechanics may provide a better framework for understanding these calculations. Ultimately, the accurate first ionization energy for Helium is around 24.5874 eV.
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Homework Statement



What is the ionization energy for He+ Z=2

Homework Equations



E = -13.6 z^2 / n^2

The Attempt at a Solution



I plugged 2 in for Z and 1 in for n, and got 54.4 eV. I checked many charts and it said the ionization energy for Helium was around 24.6 eV.
 
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Well, I think you came up with the right answer. Are you sure that's what the chart said?
 
The chart had 24.6, but maybe that isn't for Helium Ions.
 
Bohr's theory is flawed

If you try to use a Bohr equation, which uses Z squared, you cannot calculate the ionization energy of a neutral atom such as Helium I. The problem is that Bohr's theory has never been show to successfully calculate the ionization of Helium. However, the second ionization energy does calculate as 54.42. It is interesting that the third ionization energy of Lithium, the fourth of Beryllium and so forth do work with Z squared in the equation. Perhaps quantum mechanics (perbutation theory) succeeds where Bohr failed-I'm not sure.
Bohr assumed that Z represents the nuclear charge of the atom. He also believed that electron-electron repulsion would interfere with the calculation. Even when considering this interference, Bohr was never able to reach an accurate value for Helium's first ionization energy- which is actually 24.5874.
I can only speculate, at this point, that Z is not the nuclear charge, but the ionic charge of the nucleus. And that it is only when one electron is left that this value is qualified.
Bohr was only able to use his theory to explain the spectra of Hydrogen, and Hydrogen-like atoms-atoms stripped of all but one electron. Accordingly, he could only solve for the ionization energies of He II, Be III, Li IV, etc Where II is one electron removed, III is two electrons removed etc.
 
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