Electrons excited by absorption of a photon in Mg

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Homework Help Overview

The discussion revolves around the absorption of a photon by an electron in a magnesium (Mg) atom, specifically focusing on the possible electronic states that can be accessed following this absorption. The problem involves understanding the implications of total spin and selection rules in quantum mechanics.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to identify which electronic states (4s, 5s, 3p, 4p, 3d, 4d) are accessible after photon absorption, expressing uncertainty about the role of total spin and energy levels. Some participants question the original poster's assumptions regarding the allowed transitions and the relevance of selection rules.

Discussion Status

Participants are exploring the implications of selection rules on the possible transitions. A hint regarding the change in magnetic quantum number has been provided, leading to a discussion about which states are allowed based on these rules. There is acknowledgment of the complexity surrounding the total spin and its impact on the transitions.

Contextual Notes

There is mention of a lack of discussion in class regarding how total spin is computed and its relationship to the energy of an atom, which may affect the understanding of the problem.

HastiM
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Homework Statement


The total spin of an Mg atom is zero and remains zero after absorption or emission of a photon. To which states can one of the electrons in the outer shell get by absorption of a single photon: 4s, 5s, 3p, 4p, 3d, 4d?2. The attempt at a solution

I am not sure which of the states are possible. My ideas so far: When a photon is absorbed by one of the two electrons in the outer shell, the electron has a higher energy. But both electrons in the outer shell are in the state 3s (one with spin up, and the other with spin down). On the other hand, all states given above represent states with higher energy, so that all states should be possible. Is that true? Or do I missing something? I guess my answer is wrong because I ignored the total spin. But we have not discussed in class how the total spin is computed and how it is related to the energy of an atom.

Any help is very appreciated!

Best wishes
 
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Have you learned about selection rules?
 
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Thank you for your help and the hint!

I just read that state transitions due to a photon emission/absorption necessarily change the magnetic quantum number by +1 or -1. This would mean that in our case only the states 3p and 4p are possible. Is that correct?
 
HastiM said:
I just read that state transitions due to a photon emission/absorption necessarily change the magnetic quantum number by +1 or -1. This would mean that in our case only the states 3p and 4p are possible. Is that correct?
Yes, but its related to the orbital quantum number, not the magnetic quantum number (for which there is also a selection rule, but it is irrelevant here). Note also that there is no selection rule related to the principal quantum number, so other final states, such as 6p, would also have been allowed.
 
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Thank you very much! You helped me a lot!
 

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