Magnetic properties, what is it really? part 2

in #steemstem6 years ago

Continuing the theme of magnetic properties, I recall two conclusions made last time.
Electrical properties can manifest themselves in two directions: in the direction of propagation and perpendicular to this propagation. We consider the effects arising perpendicular to the direction of propagation of electricity, which in everyday life is called the magnetic effect.
If electricity is spreading, then there is an effect on the substance that is in the field of action of this influence. If this substance has a ferrimagnetic nature, then a copy of this effect arises in it. And as I said earlier, this is an impact, is the continuation of electrical properties. Consequently, as a result we get a copy of the electrical properties. You just have to figure out which copy, direct or reverse.


[Drawing of Michael Faraday's 1831 experiment showing electromagnetic induction between coils of wire, using 19th century apparatus, from an 1892 textbook on electricity. On the right is a liquid battery that provides a current that flows through the small coil of wire (A) creating a magnetic field. When the small coil is stationary, no current is induced. However, when the small coil is moved in or out of the large coil (B), the change in magnetic flux induces a current in the large coil. This is detected by the deflection of the needle in the galvanometer instrument (G) on the left.](By J. Lambert - Downloaded 2009-08-06 from Arthur William Poyser (1892) Magnetism and electricity: A manual for students in advanced classes, Longmans, Green, & Co., New York, p.285, fig.248 on Google Books. The drawing is signed Lambert, J., Public Domain, Link)

Let's speculate. How, you can make a copy. From optics we know that the image is copied, always upside down. With electrical properties, almost the same thing happens.
I will dwell on this in more detail. If you remember the lectures from the school about eclectic induction, then the charge is inducible, always has the opposite sign of the inductor. Therefore, attraction of bodies arises, so the opposing charges attract. This is very much understood when electricity is an electrical offset, as Faraday claimed (if I do not confuse anything). Every charge creates a new one, and a new one creates yet and so far enough energy. That's why I believe that electricity is not the motion of electrons, but the properties of excitation are displacements.
Returning to perpendicular influences, it is not difficult to imagine that impacts also have opposite poles, because bodies also induce and attract. But in this case, the electrical properties induced in the neighboring body will have the opposite direction of propagation. This reminded me of the process when DNA is copied. Let me remind you, the DNA consists of two chains, but they are connected by opposite ends. DNA first dissolves, but not completely in parts, into two parts. After that, special RNAs begin to copy each tail, completing a number of necessary links. But if, on the one hand, RNA moves from the beginning, then on the other hand it moves from the end. But you can not build a copy from the end. Therefore, the RNA makes such movements, it passes a small section forward and starts copying this area, but in the opposite direction. And then again rushes forward, and moves in the opposite direction, although for her this movement from the beginning to the end. As a result, the second part is delayed due to unnecessary movements. In our case, there is no such thing, but we have two POLES. Therefore, the motion repeats the motion of the inductor, but the polarity is opposite. In this case, in the body, we induce opposite (per poles) perpendicular effects.
Unfortunately, I can not explain how the atom is excited by a certain pole, but so far I'm guessing exactly this.
An important point, in order to excite electric properties in this way, is that the process at the source is not stable. This means, the initial stage or the final and the change in interaction by motion, which is also a source of not stability.

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