Hypervortex Explanation of Galaxies

Standard models fail to explain the existence of galaxies. In contrast, galaxies are inherently explained and even predicted by older Aether theories in which Aether filled the space between particles. Galaxies would be vortexes in the Aether; the vortexes generate gravitational forces that trap matter within them. Aether theories were rejected, however, because they failed to explain experimental results regarding the Earth-Aether boundary. In the hypervortex model, hyperfluid fills all of space, including the space occupied by particles. With such hyperfluid, there is no boundary problem. The hyperfluid is continuous everywhere and all of the historical experimental challenges to fluid models become inherently solved. In the model, galaxies are our observation of very large hypervortexes in the hyperfluid while particles are our observation of the smallest of hypervortexes. A unifying Lagrangian for has been created the hypervortex model that generates correct forms for gravity and electromagnetics and the framework for full integration of particle theory. Mass orbits around galactic centers because galactic hypervortexes generate gravitational forces with r$=$0 at the galactic center. The quantity of matter in a galaxy may depend on the quantity of turbulence initially in the galactic hypervortex; such turbulence would generate the smaller hypervortexes within the galaxy that we observe as particles. The gravitational singularity at r$=$0 disappears, which resolves issues related to black holes.\newline \\Gary.warren@saic.com; \newline garywarren@cox.net; \newline hypervortex.com