1. Reimer, A., 2021. Horizons in World Physics. Volume 306 Nova Science Publishers Hauppauge, New York, United States, 1.
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2. Fedosin, S.G., 2021. The potentials of the acceleration field and pressure field in rotating relativistic uniform system. Continuum Mech. Thermodyn., 10.1007/s00161-020-00960-7.
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3. Fedosin, S.G., 2021. The electromagnetic field outside the steadily rotating relativistic uniform system. Jordan J. Phys., 14: 379-408.
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4. Fedosin, S.G. 2021. The Theorem on the Magnetic Field of Rotating Charged Bodies. Prog. Electromagn. Res. M 103: 115-127.
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5. Fedosin, S.G., 2020. On the dependence of the relativistic angular momentum of a uniform ball on the radius and angular velocity of rotation. Int. Front. Sci. Lett., 15: 9-14.
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6. Fedosin, G.S., 2020. The mass hierarchy in the relativistic uniform system. Bull. Pure Appl. Scie. Phys., 38: 73-80.
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7. Fedosin, S.G., 2019. The binding energy and the total energy of a macroscopic body in the relativistic uniform model. Middle East J. Sci., 5: 46-62.
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8. Fedosin, S.G., 2019. On the covariant representation of integral equations of the electromagnetic field. Prog. Electromagnet. Res. C, 96: 109-122.
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9. Fedosin, S.G., 2019. Equations of motion in the theory of relativistic vector fields. Int. Lett. Chem. Phys. Astron., 83: 12-30.
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10. Fedosi, S.G., 2019. The integral theorem of the field energy. Gazi Univ. J. Sci., 32: 686-703.
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11. Fedosin, S.G., 2018. The integral theorem of generalized virial in the relativistic uniform model. Continuum Mech. Thermodyn., 31: 627-638.
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12. Fedosin, S.G., 2018. The gravitational field in the relativistic uniform model within the framework of the covariant theory of gravitation. Int. Lett. Chem. Phys. Astron., 78: 39-50.
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13. Fedosin, S.G., 2018. The electromagnetic field in the relativistic uniform model. Int. J. Pure Appl. Sci., 4: 110-116.
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14. Fedosin, S.G., 2018. The covariant additive integrals of motion in the theory of relativistic vector fields. Bull. Pure Appl. Sci. Phys., 37d: 64-87.
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15. Fedosin, S.G., 2018. Energy and metric gauging in the covariant theory of gravitation. Aksaray Univ. J. Sci. Eng., 2: 127-143.
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16. Fedosin, S.G., 2017. Two components of the macroscopic general field. Rep. Adv. Phys. Sci., Vol. 1, No. 2. 10.1142/S2424942417500025.
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17. Fedosin, S.G., 2017. The substantial model of the photon. J. Fundam. Appl. Sci., 9: 411-467.
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18. Fedosin, S.G., 2016. The virial theorem and the kinetic energy of particles of a macroscopic system in the general field concept. Continuum Mech. Thermodyn., 29: 361-371.
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19. Fedosin, S.G., 2016. The virial theorem and the kinetic energy of particles of a macroscopic system in the general field concept. Continuum Mech. Thermodyn., 2016: 1-11.
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20. Fedosin, S.G., 2016. The concept of the general force vector field. Oalib J., 3: 1-15.
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21. Fedosin, S.G., 2016. The charged component of the vacuum field as the source of electric force in the modernized Le Sage`s model. J. Fundam. Appl. Sci., 8: 971-1020.
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22. Fedosin, S.G., 2016. Estimation of the physical parameters of planets and stars in the gravitational equilibrium model. Can. J. Phys., 94: 370-379.
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23. Fedosin, S.G., 2016. About the cosmological constant, acceleration field, pressure field and energy. Jordan J. Phys., 9: 1-30.
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24. Fedosin, S.G., 2015. The pioneer anomaly in covariant theory of gravitation. Can. J. Phys., 93: 1335-1342.
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25. Fedosin, S.G., 2015. The graviton field as the source of mass and gravitational force in the modernized Le Sage's model. Phys. Sci. Int. J., 8: 1-18.
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26. Fedosin, S.G., 2015. The force vacuum field as an alternative to the ether and quantum vacuum. WSEAS Trans. Appl. Theor. Mech., 10: 31-38.
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27. Fedosin, S.G., 2015. Group function of income distribution in society. Int. Front. Sci. Lett., 6: 6-15.
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28. Fedosin, S.G., 2015. Generation of magnetic fields in cosmic objects: Electrokinetic model. Adv. Phys. Theor. Applic., 44: 123-138.
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29. Fedosin, S.G., 2015. Four-dimensional equation of motion for viscous compressible and charged fluid with regard to the acceleration field, pressure field and dissipation field. Int. J. Thermodyn., 18: 13-24.
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30. Fedosin, S.G., 2014. The procedure of finding the stress-energy tensor and equations of vector field of any form. Adv. Stud. Theor. Phys., 8: 771-779.
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31. Fedosin, S.G., 2014. The metric outside a fixed charged body in the covariant theory of gravitation. Int. Front. Sci. Lett., 1: 41-46.
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32. Fedosin, S.G., 2014. The integral energy-momentum 4-vector and analysis of 4/3 problem based on the pressure field and acceleration field. Am. J. Mod. Phys., 3: 152-167.
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33. Fedosin, S.G., 2014. The general theory of relativity, metric theory of relativity and covariant theory of gravitation. Axiomatization and critical analysis. Int. J. Theor. Appl. Phys., 4: 9-26.
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34. Fedosin, S.G., 2014. Relativistic energy and mass in the weak field limit. Jordan J. Phys., 8: 1-16.
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35. Fedosin, S.G., 2014. Energy, momentum, mass and velocity of a moving body in the light of gravitomagnetic theory. Can. J. Phys., 92: 1074-1081.
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36. Fedosin, S.G., 2014. About the cosmological constant, acceleration field, pressure field and energy. Relativ. Cosmol., .
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37. Fedosin, S.G., 2013. 4/3 problem for the gravitational field. Adv. Phys. Theor. Applic., 23: 19-25.
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38. Fedosin, S.G., 2012. The radius of the proton in the self-consistent model. Hadronic J., 35: 349-363.
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39. Fedosin, S.G., 2012. The principle of proportionality of mass and energy: New version. Caspian J. Appl. Sci. Res., 1: 1-15.
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40. Fedosin, S.G., 2012. The principle of least action in covariant theory of gravitation. Hadronic J., 35: 35-70.
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41. Fedosin, S.G., 2012. The Hamiltonian in covariant theory of gravitation. Adv. Nat. Sci., 5: 55-75.
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42. Fedosin, S.G., 2012. Cosmic red shift, microwave background and new particles. Galilean Electrodynamics, 23: 3-13.
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43. Fedosin, S., 2012. Scale dimension as the fifth dimension of spacetime. Turk. J. Phys., 36: 461-464.
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44. Fedosin, S.G., 2009. Model of gravitational interaction in the concept of gravitons. J. Vectorial Relativ., 4: 1-24.
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45. Fedosin, S.G., 2008. Mass, momentum and energy of gravitational field. J. Vectorial Relativ., 3: 30-35.
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46. Fedosin, S.G., 2007. Electromagnetic and gravitational pictures of the world. Apeiron, 14: 385-413.
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47. Fedosin, S.G., 2004. Problems of fundamental physics and possible ways of their solution. Cognition Phys. Reality, 9: 34-42.
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48. Fedosin, S.G. and A.S. Kim, 2002. The moment of momentum and the proton radius. Russ. Phys. J., 45: 534-538.
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49. Fedosin, S.G. and A.S. Kim, 2001. Electron-ionic model of ball lightning. J. New Energy, 6: 11-18.
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