Page 266 - Теория кавитации
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the direction and the electromagnetic field of the electron will be created according to
the “screw rule”, as we described above, question ii in this case does not require an
answer; 2) in a bidirectional conductor where a free electron in the form of a cavition hit
at that moment, if even the smallest electromagnetic field is present, the cavitation is
adjusted in the direction of the electron flow, and on the other part of the conductor the
EMF is created or amplified due to self-induction and a single current is established and
in this case one should not answer question ii; if the electromagnetic field on the
conductor is completely absent, then such factors as external conditions, for example,
GMF (geomagnetic field) or MFE, should be taken into account, then cavitation
produces electricity randomly, based on these conditions, independently setting the
“screw rule”, i.e. and here the current will be unidirectional. Thus, we fully answered
questions i and ii.
3.3 Conversation with an expert on a given topic
On February 10, 2019, we met with well-known electrical engineer Dauren
Sadykovich Axmetbayev (doctor of technical sciences, professor at S. Seifullin
KazATU) and discussed some issues as an expert. Here are some of our findings at the
meeting:
- Electromagnetic force - the force generated by the EMF around the wire, this
force, overcoming the weak nuclear force (WNF) in the wire atoms, knocks electrons
out of the material of this wire and makes them free; but, in my opinion, the
electromagnetic force is also the force generated by free electrons in the conductor as
they move through it(?);
- The energy of an electromagnetic field is the product of an electrical voltage and
a magnetic voltage in a current electromagnetic field;
- The air around the conductor, where the EMF is generated, is also a dielectric and
the energy discharge of the dielectric gas is a dangerous environment and is a very
dangerous thing. If you do not protect yourself from it in time, this is a very serious
obstacle to the practical application of the electric phenomenon - current;
- Maxwell's equations in electrical engineering and their solutions - in the form of
waves - is simply one of the possible model solutions for the EM phenomenon, but, in
fact, it is a vibrating - pulsating phenomenon of a bubble nature, which periodically
repeats at very high frequencies. In our opinion, the Schrödinger equations, which are
the basis of quantum physics, also remotely describe the electromagnetic phenomenon
in the microworld using a special wave function, which is also a possible methodical
technique, since each solution in the form of wave does not accurately reflect the EM
phenomenon in the microworld, only the module ǀѰ·Ѱ*ǀ expresses the probability of
finding an EP, generating EM, in a certain state, where Ѱ* is the adjoint function of the
function Ѱ.
The collective discussion of problems at the seminar led to a recommendation: the
intended study guide should be published in three languages - Kazakh, Russian and
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