Exploration for matter stability & the material basis and mechanism for the interaction of light, electricity and magnetic

Zhengrong  Tong

doi:10.4236/ns.2012.43028

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NS Vol.4 No.3 , March 2012

Exploration for matter stability & the material basis and mechanism for the interaction of light, electricity and magnetic

Zhengrong Tong

Abstract: This paper is about the theory of “basic gravitinoes” (in early papers, it was referred to WG) in the material world, which make up the “dark matter” and the elementary particles as well. The strong interaction is generated by the Pressure Effect, which is resulted in the accumulation of the overall gravitation from all the galaxy gravitinoes. The Model for Stable-state Particle Basic Body indicates three stable states which correspond to protons, electrons and neutrons respectively and have been proven by all the particle collision experiments. It’s the root cause that only the short-lived particles resulted in the collisions. The study is supported by all experiments of light propagation, especially the wave-particle duality, and tries to make the theoretical interpretation for three laws of electromagnetic experiment so that the Maxwell’s field equations are derived ultimately and theoretically.

Keywords: Basic Gravitino; WG Condensation; “Droplets” under the Strong WG Pressure; B Body; Wave-Particle Duality Standing Wave State

Cite this paper: Tong, Z. (2012) Exploration for matter stability & the material basis and mechanism for the interaction of light, electricity and magnetic. Natural Science, 4, 189-191. doi: 10.4236/ns.2012.43028.

References

[1] Tong, Z.R. (2002) The WG theory, 4.1-4.2. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter4.htm

[2] Tong, Z.R. (2002) The discovery of dark matter, 1.2-1.4. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter1.htm

[3] Tong, Z.R. (2002) The math-physical model for the universe consisting of dark matter WG. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter11.htm

[4] Tong, Z.R. (2002) Strong interaction. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter7.htm

[5] Tong, Z.R. (2002) A math-physical model of stable elemental particle formation─“Basic body of particles”, 8.1-8.5. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter8.htm

[6] Tong, Z.R. (2002) The equation of motion for the WG original particle. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter10.htm

[7] Tong, Z.R. (2002) The medium of light propagation, 2.1-2.2. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter2.htm

[8] Tong, Z.R. (2002) The dark matter and the nature of light. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter5.htm

[9] Tong, Z.R. (2002) The essence of electric interaction, 12.1-12.5. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter12.htm

[10] Tong, Z.R. (2002) The vortex field of dark matter and magnetic field. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter13.htm

[11] Tong, Z.R. (2002) The medium of light propagation and the complex wave function in quantum mechanics. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter15.htm

[12] Tong, Z.R. (2002) The mass of the dark matter wg and two experimental data, 9.1-9.2. http://tongzr.w1.hostlogin.cn/Ewgrrt/chapter9.htm

[13] De Broglie, L. (1940) La mechanique ondulatoire du photon, une Nouvelle theorie de la lumiere, Volcano1, Hermann, Paris, 39-40.

[14] G. Feinberg (1969) Binary pulsar. Nature, 221, 525.

[15] Tong, Z.R. (2006) Dark matter physics. Zhuhai Publishing House, Zhuhai.