I Why Do Nebulae only have Hydrogen, Oxygen and Sulfur?

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Nebulae primarily emit light from Hydrogen (H), Sulfur (S), and Oxygen (O) due to their abundance and the specific emission lines produced when these elements are excited by radiation from nearby stars. Most nebulae consist of about 90% hydrogen, with sulfur and oxygen making up the remaining 10%, which explains why these elements are most commonly discussed in astrophotography. The continuous spectrum of nebulae indicates that they are vast regions of dust and gas, not just remnants of stars. Planetary nebulae, originating from dissipated red giants rather than supernovae, have a limited variety of elements compared to other types of nebulae. The visibility of emission lines also plays a crucial role in the focus on H, S, and O in discussions about nebulae.
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Why Do Nebula only have Hydrogen, Oxygen and Sulfur?
So I love talking about space but I also hate rattling off misleading or wrong info...I'm trying to wrap my head around why the nebula we observe, only emit Hydrogen (of the alpha variety) Sulfur II and Oxygen III? Why these specific elements only? I do some astrophotography so these are the three color palette types that the RGB revolves around... but If the nebula is a planetary nebula, should it be an absolute cocktail of all of the elements that the star fused in the past? Or actually maybe just the last elements it was fusing? If a star burned through it's hydrogen supply millions of years ago, and is now fusing iron before it pops, why do the nebula then have the H, S and O ?
 
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Newtons Apple said:
I'm trying to wrap my head around why the nebula we observe, only emit Hydrogen (of the alpha variety) Sulfur II and Oxygen III? Why these specific elements only?
That is hard to believe. Where does that restrictive H, S, & O emission analysis come from, a reference please?

Nebulae tend to have a continuous spectrum. Nebulae come in many forms. Most nebulae are not stars, they are vast star forming regions of dust and gas.
 
Baluncore said:
That is hard to believe. Where does that restrictive H, S, & O emission analysis come from, a reference please?

Nebulae tend to have a continuous spectrum. Nebulae come in many forms. Most nebulae are not stars, they are vast star forming regions of dust and gas.
So as I was waiting for a response I may be able to answer this myself... but let me run it by you and everyone... So I do a lot of astrophotography and we use filters to cut out a lot of the other light and only allow very specific bands from the spectrum to hit the camera. the issue is that whenever they discuss them, they ONLY discuss Oxygen, Sulfur and Hydrogen as if that's the only elements present. What I'm thinking is maybe those are the only ones that emit light when excited by the radiation from nearby stars?
 
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Google('s"AI") tells me only about 10% of a star's hydrogen is fused in the main sequence. So, most other elements are pretty scarce. That doesn't beg the question though about why He isn't used much if at all. It probably has to do with the visibility of the emissions lines/spectrum.


Also note that planetary nubulae are from dissipated red giant, not supernova, so they dont get as much or wide variety of other elements.
 

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