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Mei, Z. H.
- B. Feng’s Theory:The Prediction of Mass Spectrum of Elementary Particles and the Confidence of at Least 4-D Space-Time (PartⅠ)
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Authors
Affiliations
1 College of Chemistry and Molecular Engineering, Qingdao University of Science and Technology, Qingdao, CN
1 College of Chemistry and Molecular Engineering, Qingdao University of Science and Technology, Qingdao, CN
Source
Journal of Physics & Astronomy, Vol 5, No 3 (2017), Pagination: 1-10Abstract
B. Feng’s series valuable works is introduced and improved in this paper. Based on Einstein’s four-dimensional space time in general relativity and the symmetry principle, B. Feng created his theory in field of elementary particle physics. He proposed 16-regular polytope to express the symmetries of elementary particles’ manifold in 4-D space. The manifold’s mode changing angle (δ) projected from 4D to 3D plays an important role in his theory. The mass spectrum of elementary particles is then predicted accordingly. The result formula is as: m= 2i-1eδ-π/2Keywords
Elementary Particle, Four-dimensions, Mass Spectrum, Symmetries, Superstring Theory.Full Text
References
- Balogh V, Seelig W, Straub D. Zur Berechnung der Elementarteilchen-Masse. University of the Federal Armed Forces Munich. 1997.
- Dieter Straub. Vilmos Balogh. Rest masses of elementary particles as basic information of Gibbs-Falkian thermodynamics. Int J Therm Sci. 2000; 39:931-948.
- El Naschie MS. On the exact mass spectrum of quarks. Chaos Solitons and Fractals. 2002; 14:369-376.
- Feng B. A structure analysis of the fundamental particles. Journal of Wuyi University. 2016; 30:15-23.
- Feng B. A mathematical-physic analysis of unmeasured sets. Journal of Wuyi University. 2016; 30:21-27.
- Feng B. The topological analysis of material structure. Journal of Wuyi University. 2013; 27:42-49.
- Feng B. An analysis of modal changes in cosmic space. Journal of Wuyi University. 2012; 26:29-36.
- Feng B. The measurement analysis of the physical space. Journal of Wuyi University. 2010; 24:33-38.
- Mei ZH. The golden ratio breaks. Discovery. 2017; 53:498-504.
- Mei ZH, Mei SY. Mass the confined movement of energy. Journal of Modern Physics. 2017; 8:923-925.
- After Neutron was Compressed:The Big Bang
Abstract Views :211 |
PDF Views:0
Authors
Affiliations
1 College of Chemistry and Molecular Engineering, Qingdao University of Science and Technology, Qingdao, CN
1 College of Chemistry and Molecular Engineering, Qingdao University of Science and Technology, Qingdao, CN
Source
Journal of Physics & Astronomy, Vol 6, No 2 (2018), Pagination: 1-3Abstract
According to the regularity of classification and the new neutron model, a new type of charge reaction is proposed. That gives the Big Bang a good explanation, and results in a density of the singularity of 3.10343 × 1023 g/cm3.Keywords
Big Bang, Cosmic Evolution, Stephen Hawking, Black Hole.Full Text
References
- Mei ZH, Shi J. B. Feng’s theory (PartⅢ): Neutron model and nuclei force mechanism. Journal of Physics & Astronomy.2018;6(1):143-149.
- Mei ZH. B. Feng’s theory: the prediction of mass spectrum of elementary particles and the confidence of at least 4-D space-time (Partĉ). Journal of Physics & Astronomy. 2017;5(3):126-132.
- 3. Mei ZH. B. Feng’s theory (PartĊ): The origin of charge and the unified field theory-going on KaluzaKlein’s. Journal of Physics & Astronomy. 2018;6(1):131-139.