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Nature of Inertia Forces

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The physical nature of inertia forces is shown on the base of theory of byuons, the theory of "life" of special unobservable discrete objects – byuons from which the surrounding physical space (dark matter) and the world of elementary particles are formed. The theory of byuons predicts a new non-gauge force of nature which explains of physical nature of inertia forces.


International Letters of Chemistry, Physics and Astronomy (Volume 29)
Y. A. Baurov, "Nature of Inertia Forces", International Letters of Chemistry, Physics and Astronomy, Vol. 29, pp. 14-24, 2014
Online since:
March 2014

Physical Encyclopaedia, Big Russian Encyclopaedia, Moscow, 1 (1988) 555; 2 (1990) 145; 4 (1994) 495. (in Russian).

A. N. Vyaltsev, The discrete space-time, Moscow, Nauka, 1965 (in Russian).

D. I. Blokhintsev, Space and time in the microworld, Moscow, Nauka, 1982 (in Russian).

R. A. Alpher, M. Bethe, G. Gamov, Phys. Rev., 70 (1946) 572; i bid: 73 (1948) 803.

A. D. Linde, Uspechy Fisicheskich Nauk (UFN), 144 (1984) 177.

Yu. A. Baurov, On the structure of physical vacuum and a new interaction in Nature (Theory, Experiment and Applications) Nova Science, NY, (2000).

Yu. A. Baurov, Global Anisotropy of Physical Space. Experimental and Theoretical Basis, Nova Science, NY, (2004).

Yu. A. Baurov, I. F. Malov, Journal of Modern Physics 1 (2010) 17-32; ArXiv: 0710. 3018v1 [physics. gen. -ph] (2007).

J. Scherk, T. H. Schwarz, Phys. Lett., Ser. B., 57 (1975) 463.

E. Cremmer, J. Scherk, Mod. Phys., Ser.B., 103 (1976) 393; 108 (1976) 409.

J. H. Shwartz, Superstrings, Singapore, World Scientific, (1985).

J. H. Schwarz, Phys. Rept., 89 (1982) 223.

M. B. Green, Surv. Hiqh Energy Phys., 3 (1983) 127.

B. M. Barbashov, V. V. Nesterenko, UFN, 150 (1986) 489.

L. D. Landau, E. M. Lifshitz, Theory of the field, Moscow, Nauka, 1967, (in Russian).

N. N. Bogolyubov, D. V. Shirkov, Introduction to the theory of quantized fields, Moscow, Nauka, 1976, (in Russian).

Yu. A. Baurov, International Letters of Chemistry, Physics and Astronomy 1 (2014) 41-51.

H. Weyl, Raum, Zeit Material Vierte erweiterte Auflage, Berlin, J. Springer, (1921).

H. Weyl, Raum, Zeit, Materie, fünfte, umgearbeitete auflaqe, Berlin, J. Springer, (1923).

P. A. M. Dirac. Proc. Roy. Soc. London, A333 (1973) 419.

V. P. Chechev, Ya. M. Kramarovsky, Radioactivity and Evolution of the Universe, Moscow, Nauka, (1978) (in Russian).

Yu. A. Baurov, I. F. Malov, Int. J. Pure Appl. Phys., 6 (2010) 469-482; Also at: http: /arxiv. org/abs/1001. 5383.

Yu. A. Baurov, I. B. Timofeev, V. A. Chernikov, S. F. Chalkin, A. A. Konradov, Phys. Lett. A, 311 (2003) 512-523.

Yu. A. Baurov, et al., Mod. Phys. Lett. A, 16 (2001) 2089-2101.

Yu. A. Baurov, Yu. G. Sobolev, Yu. V. Ryabov, V. F. Kushniruk., Phys. Atom. Nucl. 70 (2007) 1825.

P. A. Sturrock, J. B. Buncher, E. Fischbach, D. Javorsek II, J. H. Jenkins, J. J. Mattes, Astrophys. J., 737(65) (2011) 5.

Yu. A. Baurov, Am. J. Mod. Phys., 2 (2013) 177-184.

Yu. A. Baurov, I. F. Malov, Journal of Modern Physics, 1 (2010) 17-32; ArXiv: 0710. 3018v1 [physics. gen. -ph], (2007).

Yu. A. Baurov, A. Yu. Baurov, A. Yu. J. Baurov, F. Meneguzzo, A. A. Bugaev, Int. J. Pure Appl. Sci. Technol., 13 (2012) (2012).

Yu. A. Baurov, L. Albanese, F. Meneguzzo, V.A. Menshikov, Am. J. Mod. Phys., 2(6) (2013) 383-391. ( Received 19 February 2014; accepted 25 February 2014 ).

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