The Annals of Frontier and Exploratory Science

One Structured Electron in an Aether (Vacuum0) Electrodynamics, Many Electrons in an Aether Fixed in Space - the Upper Scale Galilean Electrodynamics

Vladi S. Travkin,$^{1,\ast }$ Natalya N. Bolotina$^{1,2}$

$^{1}$ Hierarchical Scaled Physics and Technologies (HSPT), Rheinbach, Germany, Denver, CO, USA

$^{2}$ University of Applied Sciences, Rheinbach, Germany

ABSTRACT

The aim of this communication is to announce the elements of scaled electrodynamics for the two-scale presentation of the media consisting of structured singled out electron in an aether (vacuum0) and/or an array of electrons fixed in an aether as well. These are the two of the some basic problems of fundamentals of polyscale dynamics of structured sub-atomic particles. The second Upper scale models of the two-"phase" medium are constructed according the well developed for macro- and meso-scale Hierarchical Scaled Physics - Volume Averaging Theory (HSP-VAT) techniques of spatial averaging of the Lower scale polyphase medium model attributes, equations. As long as we have in this situation the two-phase Heterogeneous medium the hierarchical mathematics of averaging is different of Homogeneous mathematics that has being applied for ~200 years in physics for homogeneous as well as heterogeneous media regardless of structure and phases properties. Only in the latest ~30 years the polyphase methods applied more for heterogeneous media, but often not correctly and for only continuum mechanics tasks.

After short review of ideas, postulates, techniques and critics that has been sounding from the commence of QM, we explain the main features of difference between QM and presented HSP-VAT Polyphase, Polyscale treatment of charged, including sub-atomic, particles in a homogeneous medium of an aether, which is accepted here as a homogeneous as long as the speculative heterogeneity of aether might be taking place at much lower (smaller) scales than the accepted and discussed in the present work scales MATH m that can be reflecting on the Lower scale phenomena and modeling.

Then the developed by Ja.G.Klyushin Galilean electrodynamics theory for homogeneous systems is applied with HSP-VAT techniques for charged particulate medium (phase) of free fixed in space electrons along with some models of aether dynamics. Some governing equations are compared with the previously created in the 90s by one of the authors the scaled hierarchical electrodynamics theory for widely used at present the Maxwell-Heaviside-Lorentz (MHL) electrodynamics that is valid only for homogeneous media systems.

Key words: Polyscale physics; Electrons; Electrons in Vacuum; Aether; Heterogeneous media; Averaging theories; HSP-VAT; Multiscale; Polyscale; Multiscale modeling; Electrodynamics; Heterogeneous electrodynamics; Sub-Atomic modeling; Particles modeling; Gauss-Ostrogradsky theorem; WSAM theorem; Scaleportation.

The following article will describe and explain in more or less simple text the scaled subjects regarding the two-scale electrons cloud in an aether theory:

Travkin, V.S. and Bolotina, N.N., "One Structured Electron in an Aether (Vacuum0) Electrodynamics, Many Electrons in an Aether Fixed in Space - the Upper Scale Galilean Electrodynamics **," http://travkin-hspt.com/parphys/stillelectrons/stillelectrons.htm

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Some of the relevant HS physics and mathematics outcomes, methods, and derivation procedures can be found in the references below and in some closely narrated materials.

REFERENCES:

1. Kanarev, Ph.M., "Model of the Electron," Apeiron, Vol. 7, No. 3-4, pp. 184-194, (2000)

2. Kanarev, Ph.M., "A Model for the Free Electron," Galilean Electrodynamics, Vol. 13, No. S1, pp. 15-18, (2002)

3. Kanarev, Ph.M., "Electrons in Atom," Journal of Theoretics, Vol.4-4, pp. - , (2002)

4. Kanarev, Ph.M., "Modelling the Photon and Analyzing Its Electromagnetic and Physical Nature ," Journal of Theoretics, Vol.4-1, pp. 1-12, (2002)

5. Kanarev, Ph.M., Photon, http://www.micro-world.su/ Folder "Books"; retrieved 05/05/2013

6. Kanarev, Ph.M., Nuclei of Atoms, http://www.micro-world.su/ Folder "Books"; retrieved 05/05/2013

7. Kanarev, Ph.M., Answers to Microworld Questions, http://www.micro-world.su/ Folder "Answers"; retrieved 05/05/2013

8. Kanarev, Ph.M., Introduction to New Electrodynamics, http://www.micro-world.su/ Folder "Books"; retrieved 05/05/2013

9. Travkin, V. S., Electrodynamics 2 - Elements 3P (Polyphase-Polyscale-Polyphysics), http://travkin-hspt.com/eldyn2/index.htm, (2013)

10. Travkin, V. S., What's Wrong with the Pseudo-Averaging Used in Textbooks on Atomic Physics and Electrodynamics for Maxwell-Heaviside-Lorentz Electromagnetism Equations, http://travkin-hspt.com/eldyn/maxdown/maxdown.htm, (2009)

11. Travkin, V. S., Incompatibility of Maxwell-Lorentz Electrodynamics Equations at Atomic and Continuum Scales, http://travkin-hspt.com/eldyn/incompat/incompat.htm, (2009)

12. Travkin, V. S. and Bolotina, N.N., "The Classical and Sub-Atomic Physics are the Same Physics," http://travkin-hspt.com/parphys/pdf/51_PrAtEd-QM-Ref-2HSPT.pdf, (2013)

13. Travkin, V.S., "What is the Particle Physics Now? Three Important Assumptions and Five Postulates That Have Destroyed Conventional Orthodox Homogeneous Physics (COHP)," "What is the Particle Physics Now? http://www.travkin-hspt.com/parphys/whatispp/whatispp.htm"

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This is not the well known problem because within the COHP the versions of it have been even formulated wrongly - read our analysis and texts on Conventional Homogeneous Statistical Mechanics great unbelievable simplifications of 1910-1970 and beyond - and it can not be advanced, solved within the Homogeneous One-Scale MHL electromagnetism and/or particle physics.

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