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Zhizn Zemli [Life of the Earth] 46, no 3
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Zhizn Zemli [Life of the Earth] 46, no 3

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DOI

10.29003/m4186.0514-7468.2023_46_3/311-317

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Authors:

Ivanov O.P.

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Keywords:

fractals, stability, nanoscience, synergetics, complex systems, synthesis.

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Ivanov, O.P., “On the development of interdisciplinarity in science”, Zhizn Zemli [Life of the Earth] 46, no 3, 311–317 (2024) (in Russ., abstr. in Engl.). DOI: 10.29003/m4186.0514-7468.2023_46_3/311-317.

On the development of interdisciplinarity in science

A brief analysis of modern interdisciplinary directions in science as the basis for its further development is given. The intense development of the theory of self-organization, synergetics, fractal theory, and the theory of complex systems and especially the modern development of nanoscience and nanotechnologies are noted. The commonality and difference of these scientific directions and their prospects are shown.

Список литературы

  • Budanov, V.G., Synergetics and complexity theory: an interdisciplinary approach. Part 1. Principles, methodology, education (Kursk: Universitetskaya Kniga, 2016) (in Russian).
  • Vstovsky, G.V., Elements of information physics (Moscow: MGIU, 2002) (in Russian).
  • Gladyshev, G.P., Supramolecular thermodynamics – the key to understanding the phenomenon of life (Moscow–Izhevsk: Institute for Computer Research, 2002) (in Russian).
  • Ivanova, V.S., Introduction to interdisciplinary nanomaterials science (Moscow: SCIENCE–EXPRESS, 2005) (in Russian).
  • Ivanov, O.P., Vysikaylo, F.I., “Cumulative–dissipative processes and structures (news in synergetics”, Synergetics of Geosystems (Moscow, 2007) (in Russian).
  • Ivanov, O.P., Vinnik, M.A., “Interdisciplinarity in science and education. Part 1. Origins and early stage of the development of interdisciplinarity”, Istoriya i pedagogika estestvosnaniya 2, 46–51 (2015) (in Russian).
  • Panin, V.E., Panin, L.E., “Large-scale levels of homeostasis in a deformable solid”, Physicheskaya mesomechanica 67 (4) (2004) (in Russian).
  • Potapov, A.A., Fractals in radiophysics and radar (Moscow: LOGOS, 2002) (in Russian).
  • Prigogine I., Stengers I., “The end of certainty. TIME, CHAOS and the NEW LAWS of NATURE”, (Simon and Schuster, 1997).
  • Shevchenko, V.Ya., Shudegov, V.E., “Doctrine of the development of works in the Russian Federation in the field of nanotechnology”, Nanoindustriya 3, 4–11 (2007) (in Russian).
  • Mandelbrot, B.B., The Fractal Geometry of Nature (Freeman: San-Francisco, 1982).

References

  • Budanov, V.G., Synergetics and complexity theory: an interdisciplinary approach. Part 1. Principles, methodology, education (Kursk: Universitetskaya Kniga, 2016) (in Russian).
  • Vstovsky, G.V., Elements of information physics (Moscow: MGIU, 2002) (in Russian).
  • Gladyshev, G.P., Supramolecular thermodynamics – the key to understanding the phenomenon of life (Moscow–Izhevsk: Institute for Computer Research, 2002) (in Russian).
  • Ivanova, V.S., Introduction to interdisciplinary nanomaterials science (Moscow: SCIENCE–EXPRESS, 2005) (in Russian).
  • Ivanov, O.P., Vysikaylo, F.I., “Cumulative–dissipative processes and structures (news in synergetics”, Synergetics of Geosystems (Moscow, 2007) (in Russian).
  • Ivanov, O.P., Vinnik, M.A., “Interdisciplinarity in science and education. Part 1. Origins and early stage of the development of interdisciplinarity”, Istoriya i pedagogika estestvosnaniya 2, 46–51 (2015) (in Russian).
  • Panin, V.E., Panin, L.E., “Large-scale levels of homeostasis in a deformable solid”, Physicheskaya mesomechanica 67 (4) (2004) (in Russian).
  • Potapov, A.A., Fractals in radiophysics and radar (Moscow: LOGOS, 2002) (in Russian).
  • Prigogine I., Stengers I., “The end of certainty. TIME, CHAOS and the NEW LAWS of NATURE”, (Simon and Schuster, 1997).
  • Shevchenko, V.Ya., Shudegov, V.E., “Doctrine of the development of works in the Russian Federation in the field of nanotechnology”, Nanoindustriya 3, 4–11 (2007) (in Russian).
  • Mandelbrot, B.B., The Fractal Geometry of Nature (Freeman: San-Francisco, 1982).