Please enter verification code
Special Issues
The Integral Energy-Momentum 4-Vector and Analysis of 4/3 Problem Based on the Pressure Field and Acceleration Field
American Journal of Modern Physics
Volume 3, Issue 4, July 2014, Pages: 152-167
Received: Jun. 10, 2014; Accepted: Jun. 20, 2014; Published: Jun. 30, 2014
Views 4341      Downloads 248
Sergey Grigor'yevich Fedosin, Perm State University, Bukireva Str. 15, Perm 614990, Russia
Article Tools
Follow on us
As a result of integration of the equations of motion with regard to the pressure field and acceleration field the system’s integral energy-momentum 4-vector is found. It is shown that this vector in the covariant theory of gravitation must be equal to zero. This allows us to explain the 4/3 problem and the problem of neutrino energy in an ideal spherical supernova collapse. At the same time, in order to describe the system’s state, instead of the integral 4-vector we must use the four-momentum, which is derived from the Lagrangian. The described approach differs substantially from the results of the general theory of relativity, in which the integral 4-vector serves as the system’s four-momentum, and the stress-energy tensor of the gravitational field is replaced by the corresponding pseudotensor.
Four-Momentum, Four-Vector of Hamiltonian, 4/3 Problem, Acceleration Field, Pressure Field, Covariant Theory of Gravitation
To cite this article
Sergey Grigor'yevich Fedosin, The Integral Energy-Momentum 4-Vector and Analysis of 4/3 Problem Based on the Pressure Field and Acceleration Field, American Journal of Modern Physics. Vol. 3, No. 4, 2014, pp. 152-167. doi: 10.11648/j.ajmp.20140304.12
Thomson J J. On the electric and magnetic effects produced by the motion of electrified bodies. Philos. Mag. Ser. 5 11 (68) 229 (1881).
Abraham M. – Phys. Ztschr., 1904, Bd 5, S.576; Theorie d.Electrizität. – Leipzig, 1905, Bd 2, S. 205.
Poincaré H. Sur la dynamique de l’électron. – C. R. Acad Sci., Paris, 1905, v. 140, p. 1504.
Mie G. Grundlagen einer Theorie der Materie. – Ann. d. Phys., 1912, Bd 37, S. 511; 1912, Bd 39, S. 1; 1913, Bd 40, S. 1.
Becker R Theorie der Elektrizität Bd. II Elektronentheorie (Berlin: B.G. Teubner, 1933) [Беккер. Р. Теория электричества, Т-II, Электронная теория, Л.-М. Гостехиздат, 1941 г. ]
Морозов В. Б. К вопросу об электромагнитном импульсе заряженных тел. УФН, 181 389–392 (2011).
Rohrlich, F. 1997 The dynamics of a charged sphere and the electron. Am. J. Phys. 65. 1051-1056.
Fedosin S.G. Mass, Momentum and Energy of Gravitational Field. Journal of Vectorial Relativity, Vol. 3, No. 3, 2008, P. 30–35.
5. Fedosin S.G. 4/3 Problem for the Gravitational Field. Advances in Physics Theories and Applications, 2013, Vol. 23, P. 19 – 25.
Fedosin S.G. Energy, Momentum, Mass and Velocity of a Moving Body in the Light of Gravitomagnetic Theory. Accepted by Canadian Journal of Physics.
Fedosin S.G. About the cosmological constant, acceleration field, pressure field and energy., 5 Mar 2014.
L.D. Landau and E.M. Lifshitz, The Classical Theory of Fields (Vol. 2, 4th ed. Butterworth-Heinemann, 1975).
V. A. Fock, The Theory of Space, Time and Gravitation (Pergamon Press, London, 1959).
Fedosin S.G. Fizika i filosofiia podobiia ot preonov do metagalaktik, Perm, pages 544, 1999. ISBN 5-8131-0012-1.
Fedosin S.G. The Hamiltonian in Covariant Theory of Gravitation. Advances in Natural Science, 2012, Vol. 5, No. 4, P. 55 – 75.
Fedosin S.G. Fizicheskie teorii i beskonechnaia vlozhennost’ materii (Perm, 2009).
Christensen-Dalsgaard et al. (1996) The current state of solar modeling. Science, Vol. 272, P. 1286 - 1292.
Alfè, D.; Gillan, M. J.; Vocadlo, L.; Brodholt, J.; Price, G. D. (2002). The ab initio simulation of the Earth's core. Philosophical Transactions of the Royal Society. Vol. 360 (1795), P.1227–1244.
Clemens, Dan P.; Yun, Joao Lin; Meyer, Mark H. (March 1991), BOK globules and small molecular clouds – Deep IRAS photometry and 12CO spectroscopy, Astrophysical Journal Supplement 75: 877.
J. M. Lattimer and M. Prakash, Neutron Star Structure and the Equation of State. Astrophysical J. Vol. 550(1) P. 426-442 (2001).
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
Tel: (001)347-983-5186