Frontiers of Astronomy, Astrophysics and Cosmology
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Frontiers of Astronomy, Astrophysics and Cosmology. 2016, 2(1), 35-37
DOI: 10.12691/faac-2-1-5
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Alternative Mechanisms of Dark Matter, Galactic Filaments and the Big Crunch

Jay D. Rynbrandt1,

1Oronite, Chevron Research, Richmond, CA, USA

Pub. Date: July 12, 2016

Cite this paper:
Jay D. Rynbrandt. Alternative Mechanisms of Dark Matter, Galactic Filaments and the Big Crunch. Frontiers of Astronomy, Astrophysics and Cosmology. 2016; 2(1):35-37. doi: 10.12691/faac-2-1-5


This note describes some effects of: an attraction of space to mass, black holes’ (BH) spatial capture, and an intrinsic property of space to expand: 1. Local, constant-speed, spatial rotation within galaxies and clusters explains stable, flat-speed, stellar orbits within galaxies and stable galactic orbits within clusters. Spatial movement enhances “gravitational” lensing around galaxies and clusters. Both of these phenomena are currently ascribed to dark matter. 2. Space, captured by super massive black holes (SMBH) and other BH, reduces spatial expansion pressure (an attribute of space itself) in the vicinity of galactic filaments, to maintain and sharpen these structures. 3. As the universe expands, galactic, spatial rotation rates increase to promote galactic collapse into ultra massive black holes (UMBH). These galactic masses acquire additional relativistic mass during accretion, which promotes universal collapse.

dark matter galactic filaments big crunch space black holes galaxies universal collapse

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Figure of 1


[1]  Bennett J. O., Donahue M. O., Schneider N., The Essential Cosmic Perspective; as viewed by searching: dark matter Arizona.