• Corpus ID: 116936872

Mechanical analogies for gravitation

  title={Mechanical analogies for gravitation},
  author={Valery P. Dmitriyev},
  journal={arXiv: General Physics},
  • V. P. Dmitriyev
  • Published 17 May 1999
  • Physics, Engineering, Geology
  • arXiv: General Physics
A quasielastic model of gravitation is developed. Gravitational field is modeled by the flow of the transient point dilatation, which is supposed to be continually emitted by a discontinuity of the turbulent fluid. Gravitational attraction arises from the contact interaction of the dilatation centers. Gravitational wave is viewed microscopically as the axisymmetric wave propagating at a high speed along a vortex tube. 
1 Citations

Mechanical models of physical fields and particles

Earlier obtained results on mechanical analogies of physical fields and particles are reviewed. The approach rests on the concept of the substratum - a mechanical medium, which occupies all the space



Mechanical Analogies for the Lorenz Gauge, Particles and Antiparticles

An exact analogy of electromagnet ic fields and particles can be found in m echanics of a turbulent ideal fluid with voids. The system is supposed to form a fine dispersion of voids in the fluid.

Towards an exact mechanical analogy of particles and fields

SummaryAn exact analogy of electromagnetic fields and particles can be found in continuum mechanics of a turbulent perfect fluid with voids. Deviations of the turbulence from a homogeneous isotropic

On wave properties of an incompressible turbulent fluid

On the mutual interaction of two gas bubbles in a sound field

The expression for the mutual interaction force between two pulsating gas bubbles immersed in an incompressible and inviscid fluid is derived assuming that the distance between the bubbles is

Wave motions on vortex cores

The observation of large-amplitude ‘kink’ waves on the vortex cores produced by an oscillating grid in a rotating fluid (Hopfinger, Browand & Gagne 1982) has motivated the study of such waves under

Vacuum electromagnetics derived exclusively from the properties of an ideal fluid

SummaryIf a return to ether concepts becomes necessary or desirable, an event not as unlikely as it seemed a short time ago, the medium dealt with here may be of interest. Maxwell's vacuum equations

Particles and fields in the vortex sponge

  • Z.Naturforsch.A
  • 1993