The role of visco-plastic friction at various moments of inertia for layered planets is considered using the example of the Earth, and the role of tidal friction is analyzed using the example of Jupiter’s moons.
The phenomenon of strange attractors is presented
The article is devoted to the problem of the evolution of the biosphere, the issues of its origin, organization, factors and patterns are considered.
The modern theory of development is analyzed, and it is shown how a more general process scheme can be constructed that would give a complete description of social dynamics.
The role of nonlinear language in the formation of a new nonlinear worldview that has created a new nonlinear-synergetic paradigm of modern science
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The huge role of a non-linear language in the formation of a new non-linear worldview, which created a new non-linear-synergetic paradigm of modern science, is shown. First, the development of this language induced the development of nonlinear dynamics and its formation as a new science. Secondly, this language has enriched many sciences with such concepts as “deterministic chaos”, “strange attractor”, “dissipative structures”, “fractal”, “bifurcation”, which have now become general scientific. Thirdly, this language formed the basis of a new “non-linear” thinking. Fourth, the non-linear language, which is especially attractive to young scientists, has contributed to the influx of new talented scientists into non-linear dynamics. All of the above played a decisive role in the formation of a new general scientific non-linear paradigm, impossible and inconceivable without a new language. It is thanks to this language that modern scientists look at the world with a “nonlinear vision”, not imagining a linear reality, incomparably enriching their ideas about everything that exists and develops. So, eidetically varying the concept of “chaos”, outlined the range of systems that allow chaotic behavior, found out the methodological principles for the study of such systems, determined the characteristic features of chaotic development, and thus passed the “second stage” of the phenomenological analysis of deterministic chaos.
The modern theory of development includes such concepts as entropy, dissipative and conservative structures, equilibrium systems, etc. But what is behind these concepts?
Are they not quite correct, which leads to a misunderstanding of the development process? How, on their basis, can a more general process diagram be constructed that would give a complete description of social dynamics?
The work is devoted to the problem of biosphere evolution. Questions of the origin of the biosphere, its organization, factors and patterns of evolution are considered. Particular attention is paid to the influence of man on the atmosphere.
Having non-linear equations share properties is useful, but when it comes to measurements and calculations, every non-linear system is a thing in itself. Comprehension of one of them gave absolutely nothing for penetration into the other. The Lorenz attractor revealed the stability and hidden structure of a system that, otherwise, seemed completely unstructured. But how could this double helix help specialists study objects that have nothing to do with it? No one knew.
The discoverers of new forms compromised the rigor of the scientific style. Ruelle wrote: “I have not mentioned the aesthetic impact of strange attractors. These tangles of curves and swarms of dots sometimes conjure up magnificent fireworks or mysterious galaxies, sometimes they resemble a bizarre riot of plants. Before us is a vast realm of undiscovered forms and unknown perfection.
In the light of the latest research on the role of tidal friction and excess infrared emission of the giant planets of the solar system the role of viscous friction at different moments of inertia for a layered planets for example Earth