Page 269 - Теория кавитации
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theoretically substantiate this experiment and introduced a methodical technique using
the concept of “quantum” to describe the discreteness of absorption and emission of
radiation by atoms. On the basis of these studies, A. Einstein in 1905 proved that the
concept of "quantum" is not just a methodical technique, but is the essence of the
photoelectric effect and introduced this concept into scientific use, creating the
photoeffect theory.
We also want to draw attention to these studies of the 1900s: it is likely that this
news is related to our scientific research, which we are discussing. “The atom emits EM
pulsed radiation not continuously, but discretely and periodically, with quantization of
the energy of this radiation according to the law E= h·υ, where υ is the radiation
frequency, h is the effect of quantum interaction in each quantum, which is called
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Planck’s constant, h= 6626·10 J·sec or ħ= h/(2·π) is the Planck-Dirac constant” [44]-
[45].
Depending on the nature of the cavitation phenomenon and the cavition concept
derived from it, the discreteness from the above context is consonant with pulsability,
and the wave approach to describing EM phenomena in the microcosm based on the
Schrödinger equations, mentioned above, is consonant with the oscillation of our
cavitation type of ci1. Of course, we do not deny the possibility of describing the
behavior of a cavition by formulas with wave solutions. We even acknowledge that this
approach has given a lot of useful information in the study of EM at the macro level and
at the micro level. But it is not difficult to imagine that here the methodical approach
will lead away from the true essence of the phenomenon. Not surprisingly, so far not
only ordinary people, but experts themselves argue with false ideas of EM.
The cavition behaves like a living organism: it forms as a microbubble, collapses,
then instantly recovers and re-collapses as a microexplosion, and this process goes on
non-stop at high frequency and tremendous speed, unless, of course, an abnormal
situation occurs that sharply violates this periodically pulsating oscillatory natural
process - movement. We called this HF-POM - high-frequency pulsating oscillatory
movements.
Therefore, in the theory of cavitation for the microworld, there are no such concepts
as phase, amplitude, wavelength, but instead, we suppose, in everyday life there will be:
energy, frequency, force, impulse, periodicity, and concepts that take into account time,
place, and environment - the field action cavitation ci1.
We will work out this idea by discussing the theory of the photoelectric effect from
the standpoint of the theory of cavitation. This theory was based on the experimental
and theoretical results of Henry Hertz and Max Planck, and in 1905 Albert Einstein, then
a young scientist, brought this research to its natural conclusion. The basis of Einstein's
theory was the release of electrons from a metal under the action of the energy of
quantum light emission. In Einstein's theory, the photoelectric effect is explained as
follows: an electron that has absorbed a quantum of light that illuminated a metal has
the following energy h·υ. At the same time, each electron loses energy equivalent to the
energy that overcomes a weak nuclear force, which holds it in its own atom (Einstein
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