Simple Electron Configuration Question

AI Thread Summary
The discussion centers on the capacity of an atom's third energy level, specifically addressing the confusion surrounding whether it can hold 8 or 18 electrons. The number of electrons an energy level can accommodate is governed by quantum mechanics, particularly the relationship between energy, angular momentum, and the Pauli exclusion principle. The formula N_e=2n^2 indicates that the n=3 state can indeed hold up to 18 electrons. The mention of 8 electrons likely refers to a simplified explanation found in GCSE and IGCSE textbooks, which may only account for the filling of the third subshell (2p). This simplification may lead to misunderstandings, suggesting that the textbooks could be referencing a different context or contain errors. For a more comprehensive understanding, additional resources like Wikipedia on electron shells are recommended.
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I have read from a few sources that an atom's third energy level can sometimes hold 8 electrons, and other times hold 18.

In atoms which possesses enough electrons to exceed the the third energy level, what exactly is it that determines the amount of electrons this energy level can hold?
 
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The number of electrons in an energy level (the n quantum number) can hold is determined by the relationship between energy and angular momentum, and the Pauli exclusion principle. You have to model it with quantum mechanics.

The formula is ##N_e=2n^2##

afaik: the n=3 state may have up to 18 electrons.
Do you have a reference for the 8 electron situation.
http://education.jlab.org/qa/electron_number.html
 
Thank you for your helpful response. I have read of the 8 electron situation from GCSE and IGCSE textbooks, and as this is a quantum mechanical effect it is probable that it has been simplified for all young students.
 
I suspect, then, that you will find that the GCSE/IGCSE texts are either referring to something other than the n=3 level, 8 electrons will fill up to the third subshell (=2p). or that there was a typo in the text. It is simply incorrect as you have stated it.

See, for a more complete picture:
http://en.wikipedia.org/wiki/Electron_shell
 
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