ISSN 1817-2172, рег. Эл. № ФС77-39410, ВАК

Differential Equations and Control Processes
(Differencialnie Uravnenia i Protsesy Upravlenia)

Derivation of Electromagnetism from Quantum Theory of Photons: Tesla Scalar Waves

Author(s):

Zoran Majkic

International Society for Research in Science and Technology

majk.1234@yahoo.com

Abstract:

We provide a complete explanation of the Maxwell's equations based on the statistical behaviour of the photons emitted/absorbed by charged particles, based on short-range massive photons and long-range photons. Then we explain the physical phenomena of attraction/repulsion between charged particles based on the statistical effects of short-range photons. Finally, we provide the physical explanation of the famous Tesla's scalar (longitudinal) waves based on the theory of massive long-range photons (which have the similar behaviour like the neutrinos).

Keywords

References:

  1. Majkic, Z. Partial Differential Equations for Wave Packets in the M}inkowski 4-dimensional Spaces, Differencialnie uravnenia i protsesy upravlenia, no. 1(2011), http://www.math.spbu.ru/diffjournal/pdf/madjkic.pdf
  2. Martins, A. A. Fluidic Electrodynamics: On parallels between electromagnetic and fluidic inertia, arXiv:1202. 4611, 2012
  3. Buker, M. L., Tripoli, G. J. The electromagnetic-hydrodynamic analogy: An approach to vortex dynamics and preservation in tornadic simulations, 25th Conference on Severe Local Storms, Denver, USA, 11-14 October, 2010
  4. Majkic, Z. Completion and Unification of Quantum Mechanics with Einstein's GR Ideas, Part I: Completion of QM, Nova Science Publishers, New York, ISBN:978-1-53611-946-6, July, 2017
  5. Majkic, Z. Completion and Unification of Quantum Mechanics with Einstein's GR Ideas, Part II: Unification with GR, Nova Science Publishers, New York, ISBN:978-1-53611-947-3, September, 2017
  6. Majkic, Z. Completion and Unification of Quantum Mechanics with Einstein's GR Ideas, Part III}: Advances, Revisions and Conclusions, Nova Science Publishers, New York, ISBN:978-1-53617-200-3, November, 2019
  7. Majkic, Z. Double-slit Experiment: a Test for Individual Particles Completion of Quantum Mechanics, Differencialnie uravnenia i protsesy upravlenia, no. 2(2019), http://www.math.spbu.ru/diffjournal/pdf/madjkic.pdf
  8. Majkic, Z. Hydrodynamic equilibrium and stability for particle's energy-density wave-packets: State and revision, Differencialnie uravnenia i protsesy upravlenia, no. 3(2018), http://www.math.spbu.ru/diffjournal/pdf/madjkic.pdf
  9. Majkic Z., Schrodinger Equation and Wave Packets for Elementary Particles in the Minkowski Spaces, Differencialnie uravnenia i protsesy upravlenia, no. 3(2011), http://www.math.spbu.ru/diffjournal/pdf/madjkic2.pdf
  10. Majkic, Z. Differential Equations for Elementary Particles: Beyond Duality, LAP LAMBERT Academic Publishing, Saarbrucken, Germany, 2013
  11. Jackson, J. D. Classical Electrodynamics, (3rd ed. ). Wiley, 1998
  12. Adelberger, E. Dvali , G. Gruzinov, A. Photon Mass Bound Destroyed by Vortices, Phys. Rev. Lett. 98:010402, 2007
  13. Gibs, P. Is The Speed of Light Constant?, in Carlip, S. Usenet Physics FAQ. University of California, Riverside. http://math.ucr.edu/home/baez/physics/Relativity/SpeedOfLight/speed\_of\_light.html , 1997
  14. Sidharth, B. The Thermodynamic Universe, World Scientific. p. 134. ISBN 9812812342, http://books.google.com/books?id=OUfHR36wSfAC\&pg=PA134] , 2008

Full text (pdf)