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Remodeled Relativity Theory

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arxiv 0711.1575 v2 pith:7WO4WYC6 submitted 2007-11-10 physics.gen-ph

Remodeled Relativity Theory

classification physics.gen-ph
keywords relativityeinsteinenergyprinciplesexperienceframesmomentumrelativistic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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This remodeled form of Einstein's relativity theories retains and incorporates only experimentally proven principles. It is based on a generalized law for spinning and rotational motions, which is in fact the conservation law of momentum vector direction, and can be successfully used for the precision computation of planetary and lunar orbits. The most fundamental principles of the remodeled relativity theory are the conservation laws of energy and momentum. Based on experience of relativity experiments, we adopted the principles that energy level is the underlying cause for relativistic effects, and that mass is expressed by the relativistic energy equation from Einstein. From space age ephemeris generation experience and following nature's way to conserve energy and momentum, we found reason to replace the concept of "relativity of all frames" with that of "nature's preferred frame", which helped us to escape Einstein's dilemma till 1912, when he concluded that 'there is no way of escape from the consequence of non-Euclidean geometry, if all frames are permissible'. Einstein formulated gtr as a law for all frames, but physicists and astronomers have continued to adopt one or other 'ad-hoc' approach not in full conformity with the basic tenets of gtr/str. Based on above principles, a comprehensive remodeling led to this theory that uses Euclidean space to consistently and successfully simulate numerically the results of all the "well-established" tests of gtr (as in our earlier papers), and for the precise calculation of relativistic effects observed in case of the GPS applications, and other tests of str. It combined the essential essence of gtr/str, and the experience of relativity experiments, and has been shown to avoid the inadequacies of the former.

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