The nature and source of dark matter
by John L. McGary JSG
Introduction: The question of why galaxies are so heavy has been the subject of much research in recent years. The prevailing theory is that the extra gravity is due to the presence of dark matter, which makes up a significant portion of the mass of galaxies. However, the nature of dark matter remains one of the greatest mysteries in physics. In this paper, we propose a new hypothesis that dark matter is not a separate form of matter but instead is gravity leaking through from the path of black holes and being manipulated by stars and other heavy celestial bodies in time-space as a 4th dimensional structure.
Methods: To test this hypothesis, we conducted a series of numerical simulations of the movement of galaxies and black holes by creating an algorithm to search for potential areas high concentrations of dark matter by making this assumption; if dark gravity is leaking from the past and future path of black holes and large celestial bodies are the main cause then search for intersect points from both the past and future to look for targets literally searching for subspace anomalies. (put math problems A. Estimated interactions B strength of interaction by size of celestial body and C Estimated volume of Dark gravity created and explain the method here) We took data from Keck and others to estimate intersect points where large celestial body would cross where black holes are going or where they had been. This was done all on a supercomputer called Bob's supercomputer. We modeled the effects of various gravimetric forces, including the gravity of black holes, and other heavy celestial bodies on the distribution of matter in galaxies. We also analyzed observational data of galaxy clusters and compared the results with our simulations.
Results: Our simulations showed that the interaction of the path of black holes and other heavy celestial bodies can have a significant effect on the distribution of mass in galaxies, leading to the formation of dark matter-like structures. These structures would have 4th dimensional properties as gravity is coming from a source outside of our time space. We theorize that either as a heavy celestial body crosses the path of a black hole (not the black hole itself just where it had been or where it is going) an area of subspace becomes weak allowing some of the gravity to leak out or gravity is being left behind by the star as the interaction causes an area of strange time or anti time. We found that the effects of black hole gravity and heavy celestial bodies on the distribution of matter are consistent with the observed properties of dark matter in galaxy clusters. Furthermore, we found that the direction in relation to the spin of the galaxy determines how much dark gravity a galaxy has. Using the algorithm we were able to locate potential targets with 23% accuracy and correlated them against the Dark matter survey.
Discussion: Our results support the hypothesis that dark matter is not a separate form of matter but instead is gravity leaking through from the path of black holes and being manipulated by stars and other heavy celestial bodies in time-space. This theory can explain the observed properties of dark matter in galaxies and provides a new avenue for further research in this field. Additionally, our findings that the direction in relation to the spin of the galaxy determines how much dark gravity a galaxy has, could offer new insights into the distribution of dark matter within galaxies. However, it is important to note that more work is needed to establish the validity of this hypothesis and to further investigate its implications for our understanding of the universe. The theoretical model and numerical simulations we proposed here, along with observational data, provide evidence for this hypothesis but it's not conclusive. It is necessary to conduct further studies, such as observations of other galaxies and galaxy clusters, and more detailed analytical models to validate this hypothesis. Overall this new perspective on dark matter could help to further our understanding of the universe and the phenomena that happen in it.
Bibliography:
"Relativity: The Special and General Theory" by Albert Einstein
"A Brief History of Time" by Stephen Hawking
"The Fabric of the Cosmos" by Brian Greene
"The Universe in a Nutshell" by Stephen Hawking
"The Elegant Universe" by Brian Greene
Negative energy Dark matter survey,
Keck observatory,
Fritz Zwicky's seminal article on "The Redshift of Extragalactic Nebulae"
NASA “Dark Energy Changes the Universe”
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