Global Journal of Science Frontier Research, A: Physics and Space Science, Volume 23 Issue 1

body speed tends to the speed og light in vacuum we do not come to absurdity and contradictions. Appendix. Obtaining the solution of (44). We have from (43) ( ) Λ = +− − e e e ln 1 ln ln ϑ ϑ , (50) Λ =      +− e e e ln 1 ln ϑ ϑ (51) Λ =      +− e e e ϑ ϑ 1 , (52) ϑ ϑ e ee +−= Λ− 1 , (53) 1 ) ( −= − Λ− ϑ ϑ e ee , (54) ( ) 1 1 −=− Λ− ee ϑ , (55) and finally ), 1ln( 1 1 ln 1 1 ln Λ− Λ− Λ− − −=      − =      − − = e e e ϑ i. e., (44). R eferences R éférences R eferencias 1. K. von Mosengeil. Theorie der stationaren Strahlung in einem gleichformig bewegten Hohlraum, Annalen der Physik, Vol.22, № 5, 867 – 904, 1907 2. M. Planck. Zur Dinamik bewegter Systemen, Annalen der Physik, Vol. 26, № 6, 1- 34, 1908. 3. X. Ott. Lorenz-Transformation der Waerme and der Temperatur, Zeitschrift f. Phys.,Vol.175, № 1, 70- 104, 1963. 4. H. Callen, G. Horwitz. Relativistik Thermodynamics, Am. J. Phys., Vol.39, № 8, 938 – 947, 1071. 5. G.Cavalleri, G. Salgarelli. Revision of the relativistic dynamics with variable rest mass and application to relativistic thermodynamics, It nuovo cimento. Organo della societa italiano di fisica, ser.10, Vol. A62, №№ 2 – 4, 722 – 754, 1969. 6. P.T. Landsberg, G.E.A. Matsas. Laying the ghost of the relativistic Transformation, Physics Letters A, Vol, 223, 401-403, 1996. 7. P.T. Landsberg, G.E,A. Matsas. The impossible of an universal relativistic temperature transformating, Physica A, Vol, 340, №№ 1 – 3, 92 – 94, 2004. 8. A. Einstein. Ueber das Relativitaetsprinzip und die aus demselbe gezogenen Folgerungen, Jahrbuch deutsche Radioaktivitaet und Elektronik, № 4: 411 – 462, 1907. 9. V.G. Levich. The Course of Theoretical Physics, V.1., Fizmatgiz, Moscow, 1963. 10. V.H. Hamity, Relativistic Thermodynamics, Phys. Rev., Vol. 187, № 5, 1745 – 1752, 1969. 11. M.V. Medvedev. Thermodynamics of photon in relativistic e + e - γ plasma, Phys. Review E., Vol. 59, № 5, 4766 – 4768, 1999. 12. R. Hakim, A. Mangeney. Remarks on Relativistic Thermodynamics, Lettere al Nuovo Cimento. Revista internazionale Society della italiana Di Fisica, seria 1,Vol.1, № 9, 429 – 435, 1969. 13. E.V. Veitsman. Some Problems in Relativistic Thermodynamic, J. Experimental and Theoretical Phys., Vol. 105, № 5, 1057 – 1067, 2007. 14. E.V.Veitsman. On Relativistik Surface Tension, J. Colloid Interface Sci., Vol. 265, № 1, 174 – 178, 2003. 15. E.V. Veitsman. Specific thermodynamical potentials on surfaces under relativistic conditions, J Colloid Interface Sci.,Vol. 337, № 2, 355-357, 2009. 16. Y.P. Terletsky. Statistical Physics, Visshaya Shkola, Moscow, 1966. 17. A.P. Prudnikov, U.A. Brychkov, O.I. Marichev. Integrals and Series, V.1 (Page 177), Fizmatgiz, Moscow, 2003. 18. E.V. Veitsman. Interrelation between thermodynamic processes in moving systems, Technical Physics, Vol. 55, № 5, 595 – 600, 2010. 19. E.V. Veitsman, Galilean Electrodynamics. Irreversible process thermodynamics of continuous systems under relativistic conditions, Vol, 23, 23 - 32 (2012). 20. E.V.Veitsman, Relativistic state equations for the interface, J. Colloid. Interface Sci. Vol. 290, 231 - 234 (2005). Corrigendum’s. 295. 592 (2006); 333, 411 (2009). 21. E.V. Veitsman. First Principle of thermodynamics under relativistic conditions. General case, Vol. 30, p.63 – 72, 2019. 22. E.V.Veitsman, Galilean Electrodynamics. Temperature and small fluctuations in a velocity interval of a moving medium, Vol. 26, 23 - 31 (2015). 23. E.V.Veitsman. On the bond between the chemical reaction rate and the velocity of the system under study, Am. J. Mod. Phys., Vol 2, 93 - 97 (2013). 24. E.V.Veitsman. On the rate of relativistic chemical reactions, J. Colloid Interface Sci., Vol. 275, 555 - 559 (2004). 25. E.V.Veitsman, Universal J. Phys. And Application, Vol. 9, 47 - 57 (2015). 1 Year 2023 39 © 2023 Global Journals Global Journal of Science Frontier Research Volume XXIII Issue ersion I VI ( A ) The Heat Transfer by Radiation under Relativistic Conditions ,