Abstract
There are many nonlinear dynamics in field of non-physical sciences, such as the food chain, economic systems, or engineering systems with the characteristics of closed or open-loop systems. The problems arising from this have been resolved by the outdated chaos theory in statistical physics based on the paradigm of logical thinking. However, it was founded by classical physicists, and it is imperfect and vague, moreover, very difficult for others. Therefore, we require a perfect systematic solution based on systems thinking, such as systems analytical methods in engineering science. Surprisingly, in 2021, a non-physicist, on behalf of a physicist, has successfully resolved the problems and achieved a new solution based on systems thinking through interdisciplinary research; moreover, it has been published. Unfortunately, most physicists do not welcome it because they have no experience and it is disadvantageous to them like the Copernican theory. In addition, they have no ability to evaluate the new solution because they do not know the analytic method. Nevertheless, non-physicists are greatly welcome it, thus, there is no problem in it. Hence, non-physicists will verify it using MATLAB or simulator and apply it to all science, on behalf of physicists. If so, non-physicists will have both a logical solution and a systematic solution for resolving nonlinear dynamics.
Highlights
This article will detail to the readers how to resolve nonlinear dynamic systematic problems using systems analytical methods in engineering science
Summarized the above description, (1) if we compared the old solution with the new solution, we can understand that the old chaos theory is resolved algebraically but the new solution is solved systematically
(2) physicists have no ability to resolve the systematic problems based on systems thinking because they have no experience about control theory
Summary
This article will detail to the readers how to resolve nonlinear dynamic systematic problems using systems analytical methods in engineering science. This is [an interdisciplinary science] between physics and engineering”. This article is written for non-physicists in other sciences Such topics are classified into physical science, but this article is interdisciplinary researches; it is resolved the physical problems such as nonlinear dynamics using systems analytical methods in engineering science. This article can be reviewed and evaluated by non-physicists, mathematicians or engineers on behalf of physicists if physicists avoid verifying the new solution; there is no problem It would be a revolutionary scientific research result, such as Einstein’s relativity theory.
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