Physical Interpretations of Relativity Theory

Physical Interpretations of Relativity Theory

BAUMAN MOSCOW STATE TECHNICAL UNIVERSITY Physical Department & United Physical Society of Russia Russian Gravitational Society British Society for the Philosophy of Science Liverpool University, Great Britain S.C.&T., University of Sunderland, Great Britain Physical Interpretations of Relativity Theory Proceedings of International Scientific Meeting PIRT-2003 Moscow: 30 June – 03 July, 2003 Edited by M.C. Duffy, V.O. Gladyshev, A.N. Morozov Moscow, Liverpool, Sunderland ISBN-5-89344-006-4 Physical Interpretation of Relativity Theory: Proceedings of International Meeting. Moscow, 30 June – 3 July 2003. – Moscow, Liverpool, Suderland, 2003. -370p. This volume contains papers which accepted for inclusion in the programme of lectures of meeting “Physical Interpretation of Relativity Theory” which is organized by the Bauman Moscow State Technical University, School of Computing and Technology, University of Sunderland, Liverpool University and British Society for Philosophy of Science. The most important single objective of the meeting in Summer 2003 is including the advantages of the various physical, geometrical and mathematical interpretations of the formal structure of Relativity Theory; and to examine the philosophical, historical and epistemological questions associated with the various interpretations of the accepted mathematical expression of the Relativity Principle and its development. The conference is called to examine the various interpretations of the (mathematical) formal structure of Relativity Theory, and the several kinds of physical and mathematical models which accompany these interpretations. The programme timetable, giving authors and titles of papers as presented and other details of the Moscow Meeting “Physical Interpretation of Relativity Theory” are given on the web site maintained by the Bauman Moscow State Technical University http://fn.bmstu.ru/phys/nov/konf/pirt/pirt_main.html. The meeting is intended to be of interest to physicists, mathematicians, engineers, philosophers and historians of science, post-graduate students. The conference is sponsored and supported by the Bauman Moscow State Technical University Physical Department Lomonosov Moscow State University United Physical Society of Russia Russian Gravitational Society British Society for the Philosophy of Science Liverpool University, Great Britain University of Sunderland, Great Britain School of Computing, and Technology Contents Melnikov V.N. Three problems of the Big G . 6 Pervushin V.N., Proskurin D.V., Zinchuk V.A., Zorin A.G. General Relativity as a Conformal Theory . 12 Rowlands P. From Zero to the Dirac State . 13 Kassandrov V.V. Nature of time and particles-caustics: physical world in the framework of algebrodynamics and twistor concept of R.Penrose . 23 Mayburov A. Fuzzy Space-time Geometry as approach to nonrelativistic quantization . 34 Siparov S.V. Gravitational wave’s action on the atom of a cosmic maser . 35 Zakirov U. Dynamic stability of concentrated variable mass in a gravitational field of a charged radiative field . 45 Gorelik V.S. Polaritons and analogical excitations of media and physical vacuum . 56 Levin S.F. Identification of interpreting models in General Relativity and Cosmology . 72 Vargashkin V. The phenomenon of gravitational self-lensing . 82 Misnik V.P., Sergievski A.N. Method of adaptive model creation for determining space object motion . 91 Chervon S.V. Cosmological models of global Universe evolution: from post-planckian epoch till present times . 99 Baburova O.V. Singularity-free accelerating Universe with dilation dark matter . 103 + - Dmitriyev V.P. Mechanical scenario for the reaction n → p + e + ν% . 104 Duffy M.C. Geometrized space-time & the world-ether . 108 Gladyshev V.O., Gladysheva T.M., Zubarev V.Ye. Description of electromagnetic radiation in complex motion media with account of the relativistic effects . 112 Koryukin V.M. The state of the weakly interacting particles of the Universe and the Einstein gravitational equations . 122 Konstantinov M.Yu. Causality properties of some of space-time models . 126 Trell E. String and loop quantum gravity theories unified in Platonic Ether with proof of Fermat’s Last Theorem and Beal’s Conjecture . 134 Golovashkin A.I., Izmailov G.N., Kuleshova G.A., Tskhovrebov A.M. Interferometric registration methods of weak gravitational waves and a reversible calculation problem . 150 Petrova L.I. Formation of physical fields and manifolds . 161 Myasnikov E.N., Myasnikova A.E. Quasirelativistic and quasiquantum kinematics of charges (velocities about the velocity of sound) in classic electrodynamics of continuous media . 168 Golubyatnikov A.N. Gravitation as Mass Exchange . 172 3 Gertsenshtein M.Ye. About Singularity in General Relativity . 176 Kholmetskii A.L. The Lorentz non-invariance of the Faraday induction law . 180 Rivera Rebolledo Jose M. Caltenco J.H., Lopez-Bonilla J.L., Pena-Rivero R. Landau- Lifshits energy-momentum pseudotensor for metrics with spherical symmetry . 188 Khokhlov D.L. The special relativity reinterpreted in view of the quantum mechanics . 192 Tarasov V.A., Gerasimov Yu.V., Baskakov V.D., Korolev A.N. Identification of structured systems and physical objects by using radio-wave method . 196 Bronnikov K.A., Sibileva E.N., Shikin G.N. Nonlinear self-gravitating spinor field: cosmic string-like configurations . 199 Korotaev S.M., Morozov A.N., Serdyuk V.O, Gorohov J.V. Experimental evidence of nonlocal transaction in reverse time . 200 Frolov B.N. On the physical field generated by rotating masses in Poincare-gauge theory of gravity . 213 Averin A.P. On invariance in relativistic thermodynamics . 220 Katanaev M.O. On the energy problem in gravity . 223 Fil'chenkov M.L., Cherny G.P. Quantum Cosmology Revisited . 223 Sankar Hajra. Nature of electric and magnetic fields at the vicinity of the Earth’s surface . 224 Mychelkin E. Geometrized scalar gravity as a new physical paradigm . 239 Zaripov R.G. Clock Synchronization and Finsler Structure of a Flat Anisotropic Space-time . 241 Musienko A.I. Relativistic analogies in the classical mechanics . 249 Konstantinov M.Yu. Problem of space-time structure description in microcosm . 258 Golub' Yu.Ya. Computer simulation of the gravitational interaction in binary systems . 267 Bobrov M.A., Yurasov N.I. The Bohr’s solution of quantum relativistic problem for Moon- Earth system . 271 Vichniakova S., Vichniakov V. On the fermion motion in the gravitational field of masses distributed uniformly . 273 Kupavtsev A.V. SRT and Current Education . 277 Litvinov O.S., Ivanov V.E. Phase problem algoritms solution application to the determination of the gravitation fields phase structure . 281 Amrit Sorli. Gravitational ether as the origin of the Universe and life . 282 Baranov A.M., Tegai S.F. On radiating star subsurface . 287 Carezani R.L. Extra gravitational tug . 292 Carezani R.L. Graviton velocity and gravity speed . 295 4 Carezani R.L. The Principle of Equivalence . 298 Zubarev V.E., Sal’nikov Yu.V., Podguzov G.V. Interferometer for controlling flat surfaces for precise optical experiments . 300 Podguzov G.V., Sal’nikov Yu.V. Methods of increasing efficiency of impulse laser for high- accuracy navigation systems . 300 Gavrilina E.V., Podguzov G.V., Sal’nikov Yu.V. Automating control of aspherical optics for space-location systems . 301 Gershansky V.F. Philosophical aspects of Relativity Theory . 302 Golosov D.A., Yurasov N.I. STR and boundary of the Mendeleev’s periodic system stability . 311 Gong Bing Xin. The uncertainty principle is untenable . 313 Keswani Gope H. Fizeau experiment, Aberration and Relativity . 316 Kholmetskii A.L. Remarks about the energy flux and momentum of electromagnetic field . 323 Kuvshinova E.V., Panov V.F. Cosmological models with rotation . 331 Marmet P. Anomalous Acceleration of Pioneer 10 and 11 . 334 Minasyan L.A. Phylosophical Aspects of Geometrical Physics . 338 Pavlov D.G. Finsler alternative of flat space-time . 340 Suresh Chandra Tiwari. Faster-than-light Signals: Myth or Reality? . 347 Shestakova T.P. Could gauge degrees of freedom play the role of environment in ‘extended phase space’ version of quantum geometrodynamics? . 350 Urusovskii I.A. Gravity as a projection of the cosmological force . 359 Uspenskii G.R. Interpretation of the distance paradox for the spacecraft “Pioner-10” on the base of the anomalous gravitational effects . 368 Vichniakova S., Vichniakov V. On the mass concept in the Physics study course . 369 5 THREE PROBLEMS OF BIG G V.N. MELNIKOV Centre for Gravitation and Fundamental Metrology, VNIIMS and Institute of Gravitation and Cosmology, Peoples' Friendship University of Russia 3-1 M.Ulyanovoy Street, Moscow 119313, Russia E-mail: [email protected] Main problems of modern physics and of absolute G measurements, its temporal and range variations from both experimental and theoretical points of view are discussed, and a new next generation multipurpose space project for measuring G, G(r) and G- dot promising an improvement of our knowledge of these quantities by 2-4 orders is advocated. 1 Introduction If earlier the main trend in physics was the study of different physical interactions - gravita- tional, electromagnetic, strong and week ones, after 60's and especially during last decades we see the outbreak of investigations along the unification of all four known interactions. This is due mainly to problems related to the gravitational interaction: its quantization, singularities, early universe description etc. We have now a good model unifying

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