Monday, May 1, 2017

Evaluation of Mach's Principle in four spatial dimensions







Recent cosmological data shows that the Milky Way galaxy is being pushed ahead of a void. Independently, laboratory research achieved antigravity effects in a vacuum. A possible relationship between these seemingly unrelated results indicates the need to reexamine our understanding of gravity. According to Page and Wootter mechanism, time is globally static but emergent for ‘internal’ observers. That is, interaction increases the energy-information differences among the constituents of the cosmos. Such temporal evolution engenders polar singularities, known as black and white holes, by general relativity.

The second law of thermodynamics leads to Landauer’s principle, which shows that the emitted heat is proportional to the erased information of the system. Thus, information accumulates heat in black hole horizons, two dimensional, whereas information-free areas are energy-rich and cold. The principle of static time dictates information and dimensional complementarity between antipodal regions of the universe. Two-dimensional, positive curvature black holes must be balanced by negative curvature, four-dimensional white holes, which expand space and lead to the experience of ‘dark energy.’ Positive curvature forms great field strength, stabilizing the universe with a pressure experienced as excess gravity, called dark matter. Enhanced field strength leads to clumping, forming planets, stars, galaxies, and galaxy clusters, which slows expansion. The dimensional anisotropy (two in the black holes and four in the white holes) straddles unstable three-dimensional galactic environments between them.

Everything is connected to everything else. An object’s position in space corresponds to a freely hanging plumb. Deviations in the angle of that plumb (location of the object) change the equilibrium of the whole universe and lead to inertia. This force is proportional to both the mass of the object and the field strength (i.e., radial topological distance from the center). Therefore inertia is highest in the vicinity of the black holes. On the positively curved opposite surfaces of space (such as a planet), a path that winds toward the pole forms the shortest distance. On positive curving temporal surfaces, the fastest time is acceleration, which leads to the twin paradox. The hypothesis is congruent with the latest CMB data and satisfies Mach’s principle and Occam’s razor by uncovering a surprisingly simple, stable, unified alignment of the universe. This new physical worldview is presented without equations, reflecting the futility of a universal calculation method. Read the whole article or view it on Academia. 


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