Hyper gravity Derived from the Le-Density and Applied To A Model for Explosion. Analysis of Universal Constants of Gravity and Light in Conjunction with the J-Space
Lena J-T Strömberg
Review I Published November,2015
Journal of Scientific Research and Essays Vol. 1 (2), pp. 33-36
ABSTRACT
For a rotating continuum with a Le-density, a pressure can be assumed, by means of a gas law. From this, a body force notified as hypergravity will be derived for a steady motion. It will have the same dependency of radial coordinate as Newtonian gravity, but derived from a kinematic approach. From the noncircular orbit (generalised ellipsoidal), a model for explosion will be outlined, and characterized by velocities and a length scale. The model features infinite pressure and density such that liquefaction and phase transitions may occur, as is the case for a sonic bang. If related to Big Bang, or other explosions in the solar system, the parameters at explosion may enter as universal parameters at Newtonian gravity as a memory, and due to symmetry also forward in time. The characteristics at an explosion are compared with universal constants for gravity.
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