NASA tests of Einstein's Universe call for non-empty space physics of   nonlocal classical matter

I.E. Bulyzhenkov

arXiv:0711.1620·physics.gen-ph·November 13, 2007

NASA tests of Einstein's Universe call for non-empty space physics of nonlocal classical matter

I.E. Bulyzhenkov

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TL;DR

NASA's tests of Einstein's universe using LLR and GPB data challenge existing models and suggest the need for a non-empty space physics approach involving nonlocal classical matter.

Contribution

The paper introduces a novel perspective on space physics by incorporating nonlocal classical matter, based on recent geodetic precession tests.

Findings

01

LLR and GPB data support nonlocal matter models

02

Flatness tests constrain classical matter distributions

03

Results suggest modifications to Einstein's theory are needed

Abstract

LLR and GPB geodetic precessions have tested flatness for Einsten-Infeld-Hoffmann dynamics of distributed relativistic matter

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Taxonomy

TopicsPulsars and Gravitational Waves Research · Gamma-ray bursts and supernovae · Cosmology and Gravitation Theories