Abstract
Recent research on superfluid quantum vacuum as the physical origin of universal space has opened new perspectives in astronomy and cosmology. Every stellar object is in the active relation with space and its density diminishes according to the mass-energy equivalence principle. As per Newton’s Shell Theorem, vacuum density is minimum at the surface of the stellar objects and in their centre. The density of space on the surface of the Black holes and in their centre is so low that atoms become unstable. Therefore, they disintegrate back into the elementary particles and cosmic rays. By transforming old matter into these fresh energies, black holes are rejuvenating the universe and keeping its entropy constant.
Highlights
Geometry plays a very crucial role in Astronomy
The geometry of the cosmos depends upon its density and so for Astronomy, to produce results, one has to start with the shape of the universal space
This means that the Euclidean space is the accurate model in cosmology and Riemann's finite geometry cannot be used in the description of the universal space
Summary
The geometry of the cosmos depends upon its density and so for Astronomy, to produce results, one has to start with the shape of the universal space. NASA's result confirmed by measurements performed by them as well as validated by others have proved, that universal space has Euclidean shape with only a 0.4% margin of error, and that the space is infinite and “Flat” and the curvature nature of the space in the General Theory of Relativity is only a mathematical description of its actual density. Vacuum density is the origin of the Space [1] This means that the Euclidean space is the accurate model in cosmology and Riemann's finite geometry cannot be used in the description of the universal space. The 20th century paradigm of “empty” space is replaced with more plausible model, where universal space is not just an abstract mathematical phenomenon, but it has concrete physical properties [2,3]
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