How to Interpret Missing Energy Levels in Atomic Spectra?

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The discussion centers on interpreting missing energy levels in atomic spectra, specifically in the context of multi-electron atoms and quantum defect theory. Participants highlight the importance of the equation ## E_{ion}=-\frac{Z^2 R}{n^2} ##, where ## R ## is the Rydberg constant and ## Z=1 ## for hydrogen. It is established that the wavenumbers provided in the spectrum relate to energy levels rather than transitions, allowing for the calculation of quantum defects. The conversation emphasizes the need for clarity in distinguishing between energy levels and transitions to solve the problem effectively.

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Clara Chung
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I drew a picture of the information in the problem (not sure if it is right), the red lines are the given values and green line can be calculated using the formula given. I don't know how to find the defects because the energy from 100d to 100g is missing...
 
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I think ## E_{ion}=-\frac{Z^2 R}{n^2} ##, (where ## R ## is the Rydberg constant) and for hydrogen, ## Z=1 ## (atomic number) and ## R_M=0 ##. I would need to do a little googling, which you perhaps should do on this one, but this equation is highly empirical, and not nearly as straightforward as the Bohr atom model for the hydrogen atom.
Incidentally, ## n ## is the principal quantum number. You might consult an advanced spectroscopy textbook to find out what they call the other constants in this formula.
 
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Charles Link said:
I think ## E_{ion}=-\frac{Z^2 R}{n^2} ##, (where ## R ## is the Rydberg constant) and for hydrogen, ## Z=1 ## (atomic number) and ## R_M=0 ##.
That won't work here. This question is about multi-electron atoms and quantum defect theory, so a quantum defect must be present in the equation. Also, ##R_M## is the Rydberg constant for a given isotope, so it can't be equal to zero.

@Clara Chung: I don't know how you can solve this problem. I agree with you that there appears to be some information missing. Can you post the spectrum that goes with the question?
 
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DrClaude said:
That won't work here. This question is about multi-electron atoms and quantum defect theory, so a quantum defect must be present in the equation. Also, ##R_M## is the Rydberg constant for a given isotope, so it can't be equal to zero.

@Clara Chung: I don't know how you can solve this problem. I agree with you that there appears to be some information missing. Can you post the spectrum that goes with the question?
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I am so sorry that I forgot to post the spectrum in the question... Here is it...
 
It appears that the wavenumbers given in the spectrum are related to the energies of the levels, not to the transitions. In that case, there are no unknowns and you should be able to calculate the quantum defects.
 
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DrClaude said:
It appears that the wavenumbers given in the spectrum are related to the energies of the levels, not to the transitions. In that case, there are no unknowns and you should be able to calculate the quantum defects.
Why is it the energies of the levels¿ the question says from 3p to the 100 levels...
 
Clara Chung said:
Why is it the energies of the levels¿ the question says from 3p to the 100 levels...
I interpreted this the same as you initially, but looking at the numbers given, the only way for this to make sense is to consider that these are energy levels, not transitions (compare to the energy level given for 100g).
 
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