Draft:Layered Universe Model
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Submission rejected on 5 December 2024 by Spiralwidget (talk). This submission is contrary to the purpose of Wikipedia. Rejected by Spiralwidget 8 days ago. Last edited by Citation bot 7 days ago. |
- Comment: I would like to elaborate on this strong response to this article creation attempt. This is clearly referring to one of Maxwell's Four Cosmos Hypotheses, which appears to me as someone with formal education in physics to be a qualitative hand-waving explanation for certain JWST findings which does not have any scientific merit, basis, justification or qualification, and the eponymous Maxwell Starwhisper is clearly a pseudonym attempting to use the name of James Clerk Maxwell to promote their book. I do not want to see this material here. What is this theory even saying- we know already that the different scales of the universe interact, and that the larger scales are composed of components with smaller scales. What is the new idea here? Why are these random references to Dark Matter formation tossed in here like a reference salad? In my opinion, this article is a pseudoscientific neologism that should not be given the credibility of a wikipedia article, and that is why this is a Reject rather than a Decline. Spiralwidget (talk) 02:10, 5 December 2024 (UTC)
The Layered Universe Model envisions the cosmos as a hierarchical system of interconnected layers, ranging from particles to galaxies. These layers interact to maintain cosmic stability and order.[1]
Observational Evidence
[edit]Galaxy clustering and the cosmic web support this hypothesis, demonstrating structural patterns that align with layered organization. The Millennium Simulation, for example, illustrates how dark matter forms the scaffolding for visible structures.[2]
Implications
[edit]- **Material Science**: Inspiration for layered materials in engineering. - **Cosmology**: Deeper understanding of galaxy and cluster formations.
See Also
[edit]References
[edit]- ^ Blumenthal, G.R. (1984). "Formation of Galaxies and Large-Scale Structure with Cold Dark Matter". Nature. 311 (5986): 517–525. Bibcode:1984Natur.311..517B. doi:10.1038/311517a0.
- ^ Springel, Volker (2006). "The Large-Scale Structure of the Universe". Nature. 440 (7088): 1137–1144. Bibcode:2006Natur.440.1137S. doi:10.1038/nature04805. PMID 16641985.