Sultonali Mukaramovich Abduraxmonov "All sciences. №3, 2023. International Scientific Journal"

The international scientific journal «All Sciences», created at OOO «Electron Laboratory» and the Scientific School «Electron», is a scientific publication that publishes the latest scientific results in various fields of science and technology, also representing a collection of publications on the above topics by a board of authors and reviewed by the editorial Board (academic Council) of the Scientific School «Eletkron» and on the Ridero platform monthly.

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All sciences. №3, 2023. International Scientific Journal
Toira Abdusalyamova

Foziljon Oripovich Obidov

Sanjar Sadiqjonovich Odilov

Nurmuxammad Sultonaliyevich Toyirov

Sultonali Mukaramovich Abduraxmonov

Ibratjon Aliyev

The international scientific journal «All Sciences», created at OOO «Electron Laboratory» and the Scientific School «Electron», is a scientific publication that publishes the latest scientific results in various fields of science and technology, also representing a collection of publications on the above topics by a board of authors and reviewed by the editorial Board (academic Council) of the Scientific School «Eletkron» and on the Ridero platform monthly.




All sciences. №3, 2023

International Scientific Journal

Authors: Aliyev Ibratjon, Abduraxmonov Sultonali Mukaramovich, Odilov Sanjar Sadiqjonovich, Toyirov Nurmuxammad Sultonaliyevich, Obidov Foziljon Oripovich, Abdusalyamova Toira

Editor-in-Chief Ibratjon Xatamovich Aliyev

Illustrator Ibratjon Xatamovich Aliyev

Illustrator Obbozjon Xokimovich Qo'ldashov

Illustrator Sultonali Mukaramovich Abduraxmonov

Cover design Ibratjon Xatamovich Aliyev

Cover design Ra'noxon Mukaramovna Aliyeva

Acting scientific supervisor Sultonali Mukaramovich Abduraxmonov

Economic Manager Farruh Murodjonovich Sharofutdinov

Economic consultant Botirali Rustamovich Jalolov

Proofreader Gulnoza Muxtarovna Sobirova

Proogreader Abdurasul Abdusoliyevich Ergashev

Proofreadfer Ekaterina Aleksandrovna Vavilova

© Ibratjon Aliyev, 2023

© Sultonali Mukaramovich Abduraxmonov, 2023

© Sanjar Sadiqjonovich Odilov, 2023

© Nurmuxammad Sultonaliyevich Toyirov, 2023

© Foziljon Oripovich Obidov, 2023

© Toira Abdusalyamova, 2023

ISBN 978-5-0059-9245-1 (т. 3)

ISBN 978-5-0059-5900-3

Created with Ridero smart publishing system

PHYSICAL AND MATHEMATICAL SCIENCES

THE IMPORTANCE OF DIFFERENTIAL EQUATIONS IN THE STUDY OF GENERAL LAWS AND THE SIMPLEST CASES OF TRANSFORMATION

Aliev Ibratjon Khatamovich

2nd year student of the Faculty of Mathematics and Computer Science of Fergana State University

Ferghana State University, Ferghana, Uzbekistan

Аннотация. Изучение окружающего мира непосредственно сводит к необходимости ведения тех или иных прогнозов, которые сводятся уже к важности установления для них основных законов мироздания, которые можно наблюдать в ходе изучения тех или иных явлений. При этом часто использование физических законов, возможные для описания с использованием не только обычных уравнений, но и дифференциальных уравнений, первого и вторых порядков, в том числе и большого количества уравнений в частных производных, довольно часто используемых при этом исследовании и понимании.

Ключевые слова: дифференциальные уравнений в частных производных, обыкновенные дифференциальные уравнения, математическое моделирование, аналогия, закономерности.

Annotation. The study of the surrounding world directly reduces to the need to make certain forecasts, which are already reduced to the importance of establishing for them the basic laws of the universe, which can be observed during the study of certain phenomena. At the same time, there is often the use of physical laws that are possible to describe using not only ordinary equations, but also differential equations of the first and second orders, including a large number of partial differential equations, quite often used in this study and understanding.

Keywords: partial differential equations, ordinary differential equations, mathematical modeling, analogy, regularities.

Coming to the study of the laws of the world in physical science, certain laws were most often distinguished, the initial ones among which are the mechanical laws created by Newton and developed mathematically from his side, along with other scientists, among whom the figure of Leibniz stands out vividly. For an example of this statement, we can give the differential forms of the basic equations of motion (1), which in turn are reduced to certain values in the formulas of acceleration (2), force (3), work (4), power (5) and others.

The present moments of understanding can most often be considered precisely in differential forms of meaning, for the reason that they can be numerically determined by introducing some transformations, namely, by converting (6) and taking a certain integral with the establishment of certain boundaries (7).

Such directions are developed not only in mechanical terms, but also in other branches of physics, electrostatics, electrodynamics, magnetostatics, magneto-dynamics and others can be a vivid example of this. To prove this, it is enough just to mention that the very concept of current strength is a derivative of the charge time, and voltage is a derivative of the work charge.

This statement can be given for a large number of very different understandings, but the important fact is that such an approach, unlike classical mathematical regulation, becomes the only one when it is necessary to describe the gravitational characteristics of space on the scale of the entire space. An example of this kind of phenomena, where the use of derivatives and, accordingly, differential equations becomes known quantum physics.

However, on the scale of phenomena where the classical mathematical apparatus can no longer perform its functions, it is not so much the usual classical derivatives that are reduced to ordinary differential equations that are important, unless, of course, the simplest cases are not taken into account, a vivid example of which is overcoming the potential well of a particle or describing its motion, or other similar trivial cases, only partial differential equations are more interesting.

Used literature

1. Pontryagin L. S. Ordinary differential equations. – M.: Nauka, 1974.

2. Tikhonov A. N., Samarsky A. A. Equations of mathematical physics. – M.: Nauka, 1972.

3. Tikhonov A. N., Vasilyeva A. B., Sveshnikov A. G. Differential equations. – 4th ed. – Fzimatlit, 2005.

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