Author(s)

Peter Donald Rodgers^1,2

¹Mathematics, University of Queensland, Brisbane, Australia.
²2014 Genius of the Year-Asia, World Genius Directory, Internet.

Black Hole Shock unites relativity and quantum physics. The mysterious Navier-Stokes Equations, of my recent Superrelativity, inspired me to think deeper about physics equations. The Clay Mathematics Institute Millennium contest has motivated me to create two unique physics papers, Superrelativity and Black Hole Shock, which have raised my interest in fluid dynamics. An enormous amount of effort went into creating mathematics of Superrelativity. After that effort, I was hallucinating extremely long equations, and following intellectual tangents that led to five significant Black Hole Shock equations: (a) Klein-Gordon-Schrodinger-Rodgers Equation, (b) Einstein-Rodgers’s Mass-Wave-Energy⁴ Equivalence Equation, (c) Einstein-Schwarzschild-Klein-Gordon-Schrodinger-Rodgers Mass-Hyperacceleraton Geometry, (d) Einstein-Klein-Gordon-Schrodinger-Stefan-Boltzmann-Schwarzs-child-Hawking-Rodgers Black Hole Radiation Equation, and (e) Improved Hawking-Rodgers Radius of a Black Hole. My paper Black Hole Shock indicates that our current coordinate, dimensional, geometrical systems need to be radically improved. In this paper, mathematics ends the concept of duality of a particle and shows everything is electro-magnetic.

Black Hole Shock, Superrelativity, Relativity, Physics, Albert Einstein, Stephen Hawking, Black Hole, Quantum Physics

Rodgers, P. (2016) Black Hole Shock. Journal of Applied Mathematics and Physics, 4, 2301-2320. doi: 10.4236/jamp.2016.412221.