TFNR - Motion and kinetic phenomena

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It is the state of a space-time domain where the distribution of the stochastic perturbations that constitute the Elementary Action is oriented toward a direction.

This is the root of motion phenomena.

So, in a space-time domain, as for a particle of matter or for radiation, we can identify “divergence”, a particular form of the correlation of the distributions of the elementary perturbations of the point-events that compose that domain (Translation).

A phenomenon

Motion is a phenomenon, something that happens... A process, a dynamic condition, not a state, a property / phenomenon of / in the Elementary Field. It is the dynamical condition of a space-time domain in which the distribution of the stochastic perturbations, the Elementary Action, shows a direction.

Different forms of Motion and kinetic phenomena

The Propagation of Structures of Information in the Elementary Field can take different forms, manifestations of different Phenomena:

  • propagation of the wave structures (Waves): it does not involve work by the Force on the Field. Therefore it occurs at the maximum speed allowed by the Field (limit speed).
  • propagation of vortex structures (Vortices):
    • inertial motion: does not involve work by the Force on the Field, inertia, resistance of the Field to the variation of the Translation level
    • accelerated motion: involves work by the Force on the Field, proportional to the mass of the Structure. Generation or destruction of negative energy, kinetic / inertial mass
  • emission of wave structures by vortex structures: photon emission
  • absorption of wave structures by vortex structures: photon absorption
  • interference between wave structures
  • conversion of kinetic energy (Motion) in Mass: collisions of Bright Matter Particles, or of DM Halos
  • conversion of Mass in kinetic energy (Motion): emission of G.W.


See also

Links to the tables of contents of TFNR Paper