Authors: David Norrman
The problem to fit Newtonian, Einsteinian and Keplerian predictions with observations have been subject for discussion for a long time. The rotational curves of galaxies, the cosmic coincidence problem and astrophysical jets are examples of severe discrepancies between theory and actual observations. The scientific community is currently weighted towards the dark matter solution to the rotational curve problem while Modified Newtonian Dynamics (MoND) still has some support even though MoND over the last couple of years have been subject to criticism most notably for being unable to explain observations of the so called bullet cluster. What hasn’t been done recently is a re-evaluation of our understanding of gravity as a natural phenomenon. Previous works have thoroughly addressed problems separately, but few have examined the similarities and differences between the unsolved problems and searched for a unifying solution. This paper will seek a common denominator concerning the conditions where the traditional theories are inadequate. Thereafter a theoretical solution will be proposed and tested on each of the astrophysical problems. Finally the solution will be used to describe two fundamental observations of Quantum Mechanics.
Comments: 9 Pages.
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[v1] 2013-11-28 04:46:27
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