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Чувашская Республика
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+7 (8352) 222-490
RU
428000
Чувашская Республика
г.Чебоксары
ул.Гражданская, д.75
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47.208966

Molecular Energy Concept of Substances Unpacking

Research Article
DOI: 10.21661/r-552957
Open Access
Monthly international scientific journal «Interactive science»
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Monthly international scientific journal «Interactive science»
Authors:
Haydarov G. G. 1 , Haydarov A. G. 1
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1 St. Petersburg State Technological Institute (Technological University)
For citation:
Haydarov G. G., & Haydarov A. G. (2021). Molecular Energy Concept of Substances Unpacking. Interactive science, 8-12. https://doi.org/10.21661/r-552957
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UDC 69

Abstract

This article brings together previously published evidence of the unified nature of physical processes and phenomena in terms of changes in the energy of a substance molecule. The unified physical nature of all these physical phenomena has been proven, as a single multistage process of energetic unpacking of molecules of a substance, which is logical to call the molecular-energy concept of unpacking a substance. The considered processes include the following processes. Surface rupture, characterized by the surface tension coefficient. The melting process of a substance characterized by its melting point. A boiling process characterized by the boiling point. Evaporation (and condensation) process characterized by internal energy and enthalpy as well as critical point. The conclusions of the theory are confirmed by well-known empirical dependences and by reference books of the physical properties of simple substances: internal energy, enthalpy, surface tension, melting point, boiling point and critical point.

References

  1. 1. Khaidarov, G. G. (1983). O sviazi poverkhnostnogo natiazheniia zhidkosti s teplotoi paroobrazovaniia. Zhurn. fiz. khimii, T. 57, 10, 2528-2530.
  2. 2. Vargaftik, N. B. (1972). Spravochnik po teplofizicheskim svoistvam gazov i zhidkostei., 720. M.: Nauka.
  3. 3. Weisskopf, V. F. (1985). Search for Simplicity. American J. of Physics, Vol. 53, 1.
  4. 4. Weisskopf, V. F. (1985). Search for Simplicity: The size of molecules revisited. American J. of Physics, Vol. 53, 7.
  5. 5. Khaidarov, G. G. (2010). Fizicheskaia priroda poverkhnostnogo natiazheniia zhidkosti. Dialogi o nauke, 1, 111-113.
  6. 6. Khaidarov, G. G., Khaidarov, A. G., & Mashek, A. Ch. (2011). Fizicheskaia priroda poverkhnostnogo natiazheniia zhidkosti. Vestnik Sankt-Peterburgskogo universiteta, Seriia 4 (Fizika, khimiia), 1, 3-8.
  7. 7. Khaidarov, G. G., & Khaidarov, A. G. (2014). The physical nature of liquid surface tension. Intellectual Archive, Vol. 3, 1.
  8. 8. Khaidarov, G. G. (2011). Vyvod teoreticheskoi zavisimosti poverkhnostnogo natiazheniia ot temperatury iz teorii "raspakovki molekul". Dialogi o nauke, 2, 33-38.
  9. 9. Khaidarov, G. G., Khaidarov, A. G., Mashek, A. Ch., & Maiorov, E. E. (2012). Vliianie temperatury na poverkhnostnoe natiazheniia. Vestnik Sankt-Peterburgskogo universiteta, Seriia 4 (Fizika, khimiia), 1, 24-28.
  10. 10. Lielmezs, J., & Herrick, T. A. (1986). New Surface Tension Correlation for Liquids. The Chem. Eng. J, Vol. 32, .
  11. 11. Khaidarov, G. G., & Khaidarov, A. G. (2016). Vzaimosviaz' temperatur plavleniia, kipeniia i kriticheskoi temperatury. Interaktivnaia nauka, 3, 113-116.
  12. 12. Khaidarov, G. G. (2016). The Relationship Between Melting Point, Boiling Point and Critical Point. Intellectual Archive, Vol. 5, 215.
  13. 13. Khaidarov, G. G. (2016). Fizicheskaia model' vzaimosviazi temperatur plavleniia, kipeniia i kriticheskoi temperatury. Izvestiia Sankt-Peterburgskogo gosudarstvennogo tekhnologicheskogo instituta (tekhnicheskogo universiteta), 35(61), 10-13.
  14. 14. Khaidarov, G. G., & Khaidarov, A. G. (2016). Vzaimosviaz' temperatur plavleniia, kipeniia i kriticheskoi temperatury. Wschodnioeuropejskie Czasopismo Naukowe (East European Scientific Journal), 8, 162-164.
  15. 15. Khaidarov, G. G., & Khaidarov, A. G. Vzaimosviaz' temperatur plavleniia i kipeniia veshchestva iz gipotezy raspakovki veshchestva. Interaktivnaia nauka. 2018. 8(30), S. 27.
  16. 16. Gavrilin, I. V. (2000). Raschiot temperatury plavleniia metallov. Plavlenie i kristallizatsiia metallov i splavov, 72. Vladimir: Izd. VlGU.

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