Still, there will be many discussions about the fundaments of rhythmodynamics and its organizing role. However, its undoubted advantage is that it is rhythmodynamics that unambiguously shows the universal phase-frequency nature of all types of motions, interactions and forces.
Nature does not favor humanity with revelations of such a high level of scientific standards, probably it has certain reasons for that. Saying in terms of comparisons, we can see, that "changes of seasons" is observed in science too: spring, summer, fall, winter. Any new break-through of natural science is equivalent to sprouting of a seed, followed by a rapid growth, formation of fruits and their maturing. One should not hasten events and immediately demand final product from a just sprouted idea. We cannot know of what kind the fruit will be, tasty or not. However, referring to the cultural legacy of the remote past, analyzing the facts of visits to the Earth by so-called strangers, comparing all these with our own lives and scientific experiences, we can guess, what kind of results the next break- through of natural science would bring.
It is the results of the simulation of complex oscillating particles consisting of a set of simple oscillators that attract particular attention. And, in spite of the fact that this problem is not elucidated in the English version of the rhythmodynamics because of a lack of elementary means for translation, it should be noted herein.
With the help of mathematical analysis and computer simulation a series of such complex particles, which always remain stable at any velocity lower then 'c' and provided that observable outward irradiation is absent, were successfully constructed. This conclusion is sensational also because the particles begin to irradiate while changing speed. This irradiation is connected with phase-frequency rearrangements within the particle.
As a matter of fact, an important theoretical discovery directly concerning the physics of elementary particles has been made. It is very useful to have visualization of the appearance of irradiation, for example, when an electron jumps from one orbit to another.
In addition, (based on the principle that systems tend to approach a state of minimum energy) it was shown, that a non-irradiating particle moving in a medium is affected by forces that make it change its dimensions along all coordinate axes x, y, z.
The obtained results are not covariant relative to the Lorenz transformations, since a question arises about our revision of attitude with regard to the previous views, in which these transformations were accepted as a basis .
We have grounds to believe that rhythmodynamics will become a firm foundation that science could be based on over the next hundred years or, maybe sooner.
The problem of the ether and the problem of motion are still waiting for solution. About ninety years ago the ether was treated, to put it mildly, unfairly - it was just thrown away onto a dust-heap of unnecessary ideas. But time passed, and descendants of those who had acted hastily came to a deadlock - the crisis continues to make itself felt. It looks like none of the descendants wishes to dig into the ether dust-heap. So, most of them are waiting for a messiah who will instigate a revolution yet who will change nothing at the same time. Unfortunately, it never happens.
Nevertheless, followers of those, who did not give up the idea of ether existence till their last days, remain too. The time has come, and the aether medium once having thought to be unnecessary now reasserts itself through new discoveries. So, the question is legitimate: Is misguided science ready to sacrifice its ambition to finally look into and understand the true nature of the ether? To do it, it is necessary to forget at least temporarily all the theories which appeared after 1900 and to see why everything has happened exactly in this way.
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