International Journal of Energy and Power Engineering

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Eliminating the Uncertainty of the Concept of Energy

Received: Jun. 11, 2019    Accepted: Jul. 11, 2019    Published: Aug. 08, 2019
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Abstract

The article analyzes the reasons that led to the loss of the original meaning of energy as a quantitative measure of motion and the uncertainty of this concept. A generalization of the energy conservation law was proposed taking into account the kinetics and irreversibility of real processes, and on this basis, the general properties of any forms of energy were identified. The ability is shown to return energy close to the original meaning as the most common characteristic function of the system state, expressing its ability to perform any work. A new classification of forms of energy is given, based on the fundamental difference between ordered and disordered works as quantitative measures of the processes of its transfer and transformation, as well as the presence of an irreducible part in each form of energy.

DOI 10.11648/j.ijepe.20190803.12
Published in International Journal of Energy and Power Engineering ( Volume 8, Issue 3, May 2019 )
Page(s) 35-44
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Energy, It’s Meaning, Properties, Classification, Conservation Laws

References
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[2] Bazarov I. P. Thermodynamics. Edn 4. M.: Vysshaya shkola, 1991 (in Russian).
[3] Feynman R. Character of Physical Laws.– M.: Physical Encyclopedia, 1984. (In Russian).
[4] Landau L. D., Livshits E. M. Theoretical physics. T. 1. Mechanics.- М.: Science, 1973 (In Russian).
[5] Poincaré H. On Science.–M.: Nauka, 1983. (In Russian).
[6] Physical encyclopedic dictionary. - M.: "Soviet Encyclopedia", 1984. (In Russian).
[7] Feynman R., Leyton R., Sands M. Feynman’s Lectures on Physics. V. 5, 6. – London, 1964.
[8] Etkin V. Energodynamics (Thermodynamic Fundamentals of Synergetics).- New York, 2011.- 480 p.
[9] Ade P. A. R. et al. Planck 2013 results. I. Overview of products and scientific results. //Astronomy and Astrophysics, 1303: 5062.
[10] Sakharov A. D. The initial stage of the expansion of the Universe and the occurrence of inhomogeneity in the distribution of matter // Journal of Experimental and Theoretical Physics, 49 (1965). 345 (in Russian).
[11] Whittaker E. A History of the Theories of Aether and Electricity. The Modern Theories 1900-1926, London: Thomos Nelson, 1953.
[12] Eisenstein, D. J.; et al. Detection of the Baryon Acoustic Peak in the Large‐Scale Correlation Function of SDSS Luminous Red Galaxies. //The Astrophysical Journal, 633 (2). 2005. 560.
[13] Etkin VA. On Wave Nature of Matter. // World Scientific News 69, (2017). 220-235.
[14] Umov A. I. Selected Works. M. L., 1950. p. 203.
[15] Etkin V. A. The fundamental equation of non-equilibrium thermodynamics.// Russian Journal of Physical Chemistry, 62 (8), 1988.1157-1159 (translated from Zhurnal Fizicheskoi Khimii, 62 (1988). 2246-2249.
[16] Prigogine I. Time, structure and fluctuations (Nobel lecture in chemistry in 1977). // Successes of physical sciences, 131 (1980).185... 207. (In Russian).
[17] Demirel Y. Nonequilibrium Thermodynamics. Transport and Rate Processes in Physical, Chemical and Biological Systems, 3rd ed., Amsterdam, 2014.
[18] Etkin V. A. To a solution of the problem of thermodynamic inequalities. // Soviet. Journal of Appl. Physics, 1988, 4 (15), pp. 274-279 (translated from Bulletin of Rℰssian Acad. of Science, Siberian Branch.- Engineering, 1988.- 4 (15), pp. 34-39).
[19] Maxwell J. The Treatise on Electricity and Magnetism. T. 1., M., Nauka, 1989.
[20] Tribus M. Thermostatics and Thermodynamics. M.: Energiya, 1970. (In Russian).
[21] De Groot S. R., Mazur R. Non-Equilibrium Thermodynamics:– Amsterdam, 1962.
[22] Andryushchenko A. I. Fundamentals of technical thermodynamics of real processes. M.: Higher. School, 1975. (In Russian).
[23] Etkin V. A. Heat and work in irreversible processes. //Izv. universities. Energetics, 4 (1988). 118-122. (In Russian).
[24] Etkin V. А. Full and partial energy of the system. // Bulletin of the Sc. House of Haifa, 36 (2016). 6-11 (In Russian).
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[26] Etkin V. A. Energy and anergy. // Bulletin of the Sc. House of Haifa, 9 (2006). 30-38 (In Russian).
[27] Rant, Z. Exergie, ein neues Wort fur «technische Arbeitsfähigkeit». Forschung auf dem Gebiet des Ingenieurwesens, 22 (1), 1956. 36–37.
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    Etkin Valery Abramovich. (2019). Eliminating the Uncertainty of the Concept of Energy. International Journal of Energy and Power Engineering, 8(3), 35-44. https://doi.org/10.11648/j.ijepe.20190803.12

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    Etkin Valery Abramovich. Eliminating the Uncertainty of the Concept of Energy. Int. J. Energy Power Eng. 2019, 8(3), 35-44. doi: 10.11648/j.ijepe.20190803.12

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    AMA Style

    Etkin Valery Abramovich. Eliminating the Uncertainty of the Concept of Energy. Int J Energy Power Eng. 2019;8(3):35-44. doi: 10.11648/j.ijepe.20190803.12

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  • @article{10.11648/j.ijepe.20190803.12,
      author = {Etkin Valery Abramovich},
      title = {Eliminating the Uncertainty of the Concept of Energy},
      journal = {International Journal of Energy and Power Engineering},
      volume = {8},
      number = {3},
      pages = {35-44},
      doi = {10.11648/j.ijepe.20190803.12},
      url = {https://doi.org/10.11648/j.ijepe.20190803.12},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijepe.20190803.12},
      abstract = {The article analyzes the reasons that led to the loss of the original meaning of energy as a quantitative measure of motion and the uncertainty of this concept. A generalization of the energy conservation law was proposed taking into account the kinetics and irreversibility of real processes, and on this basis, the general properties of any forms of energy were identified. The ability is shown to return energy close to the original meaning as the most common characteristic function of the system state, expressing its ability to perform any work. A new classification of forms of energy is given, based on the fundamental difference between ordered and disordered works as quantitative measures of the processes of its transfer and transformation, as well as the presence of an irreducible part in each form of energy.},
     year = {2019}
    }
    

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    AB  - The article analyzes the reasons that led to the loss of the original meaning of energy as a quantitative measure of motion and the uncertainty of this concept. A generalization of the energy conservation law was proposed taking into account the kinetics and irreversibility of real processes, and on this basis, the general properties of any forms of energy were identified. The ability is shown to return energy close to the original meaning as the most common characteristic function of the system state, expressing its ability to perform any work. A new classification of forms of energy is given, based on the fundamental difference between ordered and disordered works as quantitative measures of the processes of its transfer and transformation, as well as the presence of an irreducible part in each form of energy.
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Author Information
  • Research Center, Toglyatti State University, Toglyatti, Russian Federation

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