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Did any physics experts expect SUPERRELATIVITY paper, a physics revolution producing theEINSTEIN-RODGERS RELATIVITY EQUATION, producing the HAWKING-RODGERS BLACK HOLERADIUS, and producing the STEFAN-BOLTZMANN-SCHWARZSCHILD-HAWKING-RODGERS BLACKHOLE RADIATION POWER LAW, as the author gave a solution to The Clay Mathematics Institute’svery difficult problem about the Navier-Stokes Equations? The Clay Mathematics Institute in May2000 offered that great $million prize to the first person providing a solution for a specific statementof the problem: -Prove or give a counter-example of the following statement: In three spacedimensions and time, given an initial velocity field, there exists a vector velocity and a scalarpressure field, which are both smooth and globally defined, that solve the Navier-Stokes Equations.-Did I, the creator of this paper, expect SUPERRELATIVITY to become a sophisticated conversionof my unified field theory ideas and mathematics into a precious fluid dynamics paper tohelp mathematicians, engineers and astro-physicists? 1. Yes, but I did not expect such superbequations that can be used in medicine or in outer space! In this paper, complicated equations formulti-massed systems become simpler equations for fluid dynamic systems. That simplicity iswhat is great about the Navier-Stokes Equations. Can I delve deeply into adding novel formulaeinto the famous Schwarzschild’s equation? Surprisingly, yes I do! Questioning the concept of reversibilityof events with time, I suggest possible 3-dimensional and 4-dimensional co-ordinatesystems that seem better than what Albert Einstein used, and I suggest possible modifications toMaxwell’s Equations. In SUPERRELATIVITY, I propose that an error exists in Albert Einstein’s SpecialRelativity equations, and that error is significant because it leads to turbulence in the universe’sfluids including those in our human bodies. Further, in SUPERRELATIVITY, after I createSchwarzschild-based equations that enable easy derivation of the Navier-Stokes Equations, I suddenlycreate very interesting exponential energy equations that simplify physics equations, give amathematical reason for turbulence in fluids, give a mathematical reason for irreversibility ofevents with time, and enable easy derivation of the Navier-Stokes Equations. Importantly, my newexponential Navier-Stokes Equations are actually wave equations as should be used in Fluid Dynamics.Thrilled by my success, I challenge famous equations by Albert Einstein and StephenHawking 2 3.


Superrelativity, Relativity, Navier-Stokes Equation, Physics, Albert Einstein, Stephen Hawking, Black Hole, Clay Mathematics Institute

Cite this paper

Donald Rodgers, P. 2016 Superrelativity. Open Journal of Fluid Dynamics, 6, 130-143. doi: 10.4236-ojfd.2016.62011.

Autor: Peter Donald Rodgers*



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