How Does Baryonic Matter Alone Affect the Universe’s Structure?

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SUMMARY

This discussion centers on the implications of baryonic matter in a universe devoid of dark matter and radiation. Participants assert that the observed helium abundance limits baryonic matter without altering cosmic structures. Theoretical considerations suggest that a flat universe composed solely of baryonic matter and dark energy would exhibit significant differences, particularly in galaxy dynamics and cosmic background radiation. The absence of dark matter phenomena would lead to a more homogeneous matter distribution and potentially hinder galaxy formation.

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  • Understanding of baryonic matter and its components, including electrons and protons.
  • Familiarity with the Friedmann equations in cosmology.
  • Knowledge of cosmic microwave background radiation and its significance.
  • Basic principles of general relativity as they apply to large-scale structures in the universe.
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Astronomers, cosmologists, and physics students interested in the fundamental structure of the universe and the role of baryonic matter in cosmic evolution.

Ranku
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We know that observed helium abundance constrains the amount of baryonic matter. Leaving that aside, is there any fundamental constraint on how much baryonic matter can exist in the universe, without changing the observed structures or physics of the universe? If there were only baryonic matter and dark energy constituting a flat universe, would the universe look any different?
 
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My laymen response: I would say yes there must be a limit. Einstein showed us that matter is just compressed energy and other laws state that energy cannot be destroyed, only converted into other forms. There is only so much energy in the universe that you can compress to make a certain amount of baryonic matter. I guess the limit is the amount of energy that was present at the universe's creation.

As I said its a laymans responce (my personal intuition,) so interested in hearing others responses on this.
 
Well, if there were no dark matter and no electrons, neutrinos, etc, it seems clear that the universe would be devoid of life and very likely devoid of large scale structures as well.
 
phinds said:
no electrons

Electrons are part of baryonic matter ... to a cosmologist! :wink:
 
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George Jones said:
Electrons are part of baryonic matter ... to a cosmologist! :wink:
OK, but they ARE fermions and his question was specific.
 
phinds said:
OK, but they ARE fermions and his question was specific.

A quote from page 19 of the nice text "Introduction to Cosmology" by Ryden: "Electrons (e-) are examples of leptons, a class of elemenatary particles that are not made of quarks ... The mass of of an electron is much smaller than that of a neutron or proton ... For this reason, the component of the universe made up of ions, atoms, and molecules is generally referred to as baryonic matter"

And I think it is to this component of matter to which @Ranku refers (i.e., I don't think Ranku means to exclude normal atoms and molecules with trheir accompanying electrons) when Ranku writes

Ranku said:
We know that observed helium abundance constrains the amount of baryonic matter. Leaving that aside, is there any fundamental constraint on how much baryonic matter can exist in the universe, without changing the observed structures or physics of the universe? If there were only baryonic matter and dark energy constituting a flat universe, would the universe look any different?
 
George Jones said:
And I think it is to this component of matter to which @Ranku refers (i.e., I don't think Ranku means to exclude normal atoms and molecules with trheir accompanying electrons) when Ranku writes
Fair enough.
 
Ranku said:
We know that observed helium abundance constrains the amount of baryonic matter. Leaving that aside, is there any fundamental constraint on how much baryonic matter can exist in the universe, without changing the observed structures or physics of the universe? If there were only baryonic matter and dark energy constituting a flat universe, would the universe look any different?
H i Ranku:

I have the impression that the other responders did not understand what you were asking. As I understand your question, you want to know theoretically what would be the nature of a hypothetical flat universe without any dark energy and without any radiation. Are you familiar with the "first" Friedman equation?
In this article the equation appears just above the heading "Useful solutions".
Your question assumes that the only term on the RHS is the one with Ω0,M which would then have the constant value 1.

If this is what you have in mind, I can try to explain the implications. I think the assumption that Ω0,R=0 has the most serious physics implication implying no photons and no electromagnetic interactions. On the other hand, if you assume that currently 1>>Ω0,R>0, which is the present reality, then that would not require new physics, and the best model of the universe would be almost the same as it is now, and the same as it was before the dark energy concept became relevant.

Regards,
Buzz
 
Buzz Bloom said:
I have the impression that the other responders did not understand what you were asking.
I don't think that anything I wrote above indicates that I misunderstood @Ranku 's question (even though I ddn't answer the question.

Buzz Bloom said:
Your question assumes that the only term on the RHS is the one with Ω0,M which would then have the constant value 1.

Ranku said:
If there were only baryonic matter and dark energy constituting a flat universe, would the universe look any different?
This has implications for the observed Cosmic Microwave anisotropy data. See, e.g.,

http://background.uchicago.edu/~whu/intermediate/driving2.html
 
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  • #10
If there were only baryonic matter and dark energy constituting a flat universe, would the universe look any different?

I think another way to posing at least this part of the question is "What are the observable phenomenological effects of dark matter phenomena?"

This would change the cosmic background radiation signature, as previously noted, although nobody but a few astronomers and physicists would notice, and even they wouldn't care very much except that it would serve as evidence for the absence of dark matter in the universe.

More importantly, it would really materially change galaxy dynamics, impeding galaxy formation and making those galaxies that did form smaller. In a world without phenomena attributed to dark matter, for example, the fringes of spiral galaxies would spin off into space, the large scale structure of matter distribution in the universe would be much less strongly organized in a filamentary manner, and galaxy clusters wouldn't hold together as well. Put another way, the distribution of matter would be more homogeneous at smaller distance scales than it is today.

As inhabitants of a system at the edge of a spiral galaxy that would not have been within the gravitational bounds of the galaxy without dark matter phenomena, this would probably leave our system a stray in deep interstellar space, assuming that it even formed in the first place given weaker cluster dynamics.

I use that phrase "dark matter phenomena" rather than "dark matter", since it is possible that all or most of the phenomena attributed to dark matter could instead be due to discrepancies between general relativity as conventionally applied to galaxy and larger scale systems, and the actual weak field behavior of gravity in real life. But, the mechanism causing these phenomena is basically irrelevant to the consequences of these phenomena being absent.
 
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  • #11
We have an unclear question, and three very different ideas about what the OP must have meant. Why not let him clarify?
 
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