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VI - SPEED STABILIZATION, AND ATOMS' MECHANICAL CONSISTENCY
Revolving motion works like an old-fashioned sling: while turning, speed increases, and the centrifugal force increases too. Since the gyroscopic phenomenon prevents any dislocation of the system (obliging motions to change only in speeds and distances in the same plane, thanks to the synchronism of spins), when speed increases, the satellites tend to withdraw to further orbits. There, the attractive and repulsive powers are even smaller. Hence, spin motion decreases.
When systems' speeds are so high that the centrifugal force is stronger than the resultant attraction, it tends to decelerate the entire system, increasing the distances.
Then, if the distances are greater, and the speeds lower, the centrifugal force decreases (everything remains synchronized and consistent). It may decrease until this centrifugal force becomes weaker than the resulting attraction in the synchronized system. Then the satellites tend to fall down again upon the nuclei, diminishing the distances, increasing the attractive and repulsive powers, thus increasing the spin speeds, and so on. The centrifugal force recovers power, and again tends to pull the satellites away in greater and further orbits.
Little by little, (and yet almost instantaneously to our eyes), our atom becomes perfectly balanced, finding the appropriate orbits permitting its satellites to turn at maximum speeds, where any jump in centrifugal force compounds any increase in spinning speeds. This provides the atom (or the planetary system) with a solid equilibrium of eternal harmony.Eternal harmony thanks to, on the one hand, synchronized rotations which oblige spin speeds to increase or decrease while distances change or when something outside the atom intervenes, and on the other hand, to the gyroscopic effect, which obliges these disturbances to be evacuated solely by modifications in the speed of spin, and not by twisting the angle formed by rotation axes, which would tear the atom and make particles fall upon each other.
Furthermore, if you add outer energy to an atom, by striking it or heating it, or by compression etc., this increase in magnetic energy (every action is magnetic energy) tends to increase the speeds, thus dilating the atom. But the atom resists this dilatation in order to maintain synchronism (synchronism cannot be broken and is the atom's "resisting factor", in addition to gyroscopic effect). As soon as the intervention stops, the speeds decrease and the atom recovers its previous form (see figure 14).
It is the same if you subtract energy by, for example, cooling the atom (see figure 15). The reverse occurs, of course, compensating the contraction by an acceleration, since when distances are shorter, energy increases, increasing speeds, and making the atom recover its previously larger volume.
This is especially important because this gives matter a real mechanical stability, whereas in the Quantum atom nothing causes any stability. In the latter, particles are placed " miraculously " on very precise orbits (although they are not particles...) so as to be in balance. The smallest variation would destroy this balance and subsequently the atom itself, with no hope of it returning to its previous form.
figure 14 : Satellite pulled away from the nucleus, driven to come back to its previous orbit, in order to maintain synchronized rotation (only way to maintain maximum attraction).
Figure 15 : Atom submitted to an action pushing the satellite toward the nucleus.
Supposing that one day you asked your physics teacher what would happen in the following situation in which : the two poles of two magnets are in exact equilibrium. They niether fall upon one another, nor move away from each other. They are in attraction but completely steady (see figure below).
The question could be: " what does magnet A do if I pull magnet B away a little bit? " They will most likely answer: magnet B follows and moves towards magnet A to maintain equilibrium.
Now at home, take one of your magnets. Affix it to a vertical board as in the figure above, so that you can pull it away a little if necessary..
Now affix a thread on a nail driven into the top of the plank, at the end of which you attach a piece of iron. The system must allow you to maintain the piece of iron in very precise equilibrium, trying to touch the magnet. Of course, it must not touch it.
Now you ask your teacher again: "what will happen if I pull the magnet a little bit away, so that it gets further from the piece of iron (or magnet B)? If he answers again "magnet B follows", do it. Withdraw magnet A just a bit. What happens?
What happens is that THE WHOLE EDIFICE OF MODERN THEORETICAL PHYSICS COMES CRASHING DOWN. For this system is exactly the same as an atomic system, where an electron remains in equilibrium in its orbit although it is attracted by the proton (proton is positive, electron is negative, so they are in attraction). If the electron (the piece of iron) does not fall upon the proton (the magnet), this means that something (the thread) pulls it outward, in the other direction, to create a very precise equilibrium (same as yours on the board). In an atom, the revolving motion is this force.
If you move one of the magnets, you break the equilibrium, since, as you withdraw a magnet, you diminish the attraction between the two magnets (or particles). So the force which maintained the piece of iron (electron) at some distance is UNAVOIDABLY stronger than the attraction. Thus the electrons fly away from the proton, and will never come back. Matter is destroyed, the universe no longer exists. One change in one atom will break every equilibrium in all atoms because of the precision of balances, disturbed by the smallest outer influence.
Thank... "God", again, that matter is not ruled by this kind of unipolar particle. For every day, we move, strike, shock, and tear matter, which nonetheless remains solid. It remains matter.
Of course, physicists never talk about energetic balances in atoms, only about mathematical balances. In quantum Physics, the problem is evacuated since atoms have only a mathematical reality. Particles do not exist. They are only matrices of probabilities. If this is so, we wonder how a matrix of probability could have a positive or negative electric charge... And if they have, how opposite charges manage not to merge when they can.
In any case, even if particles do not exist, we nevertheless disturb atoms all the time. What happens when a "matrix of probabilities" (which has physical properties!) is pulled away from its nucleus? It becomes another matrix of probabilities. In fact, perhaps, "electrons" and "protons" do not attract each other...
The problem cannot be solved in this way. Matter's stability ALTHOUGH IT IS ALWAYS EVOLVING, can be explained only if Physics changes everything since the beginning. Maybe in 100 years time...
But for you, tomorrow is today.
  
8 - COMPARISON BETWEEN
QUANTUM ATOM THEORY
AND THE MAGNETIC (Hatemian) ONE
1 - OFFICIAL ATOM (Quantum Mechanics):
Particles are not particles. However, they are in attraction, due to their electric charges (the source of which is unexplained). Some are positive, some are negative, and for myterious reasons, they build "atoms". In order to maintain equilibrium, they are bound to have the same size, the same power, and the same number (what a coincidence!).
Electrons have no reason to spin. However they apparently do. Nuclei are not supposed to spin. They contain "neutrons" in order to increase their masse without increasing their electric charges.
Electrons do not revolve around nuclei. They stand here or there when they are observed. However, they can quit an orbit and occupy another orbit, if a sufficient package of energy (quantum) is provided (the source of which is unexplained).
The "quantum" is the only stability factor in such an atom. Any disturbance exceeding a quantum of energy would destroy the atom forever. This prevents such an atom from being able to constitute matter, and deprives it of all the suppleness and adaptability it effectively needs in order to evolve in accordance with circumstances.
"Particles" are associated with a "wave", which is explained by nothing. On the contrary, every magnetic particle (Hatem's atom) is obliged to emit alternately a "North" and "South" field which is felt as a wave, and is responsible for our ability to perceive it.
Physics is obliged to invent " anti-matter " to maintain the coherence of their theories, in order to ensure the balance of the whole mass of the universe.
With the magnetic atom, there is no need to invent anything hypothetical to make theories consistent. " Matter " contains its own counterpart, since it constitutes,within itself, the opposition of two principles. " Anti-matter " is within " matter " itself.
2 - HATEMIAN METAPHYSICAL ATOM:
All particles are bipolar magnets, and their origin is explained. They attract AND repel each other. Their number, size and power are unlimited. There is no need of "miraculous coincidences" for the atom to work and the universe to be. The distance between them is considerable, for obvious reasons. This distance is useless in the Quantum atom, but indispensable in ours: short distances cause particles fall upon one another and prevent Degravitation from working. Large distances cause atoms to manifest harmonious reactions, which are factors of stability.
Our atom behaves exactly like stars and planets, but they cannot be observed without interception. So their motion cannot be observed and physicists think that they are not in motion.
They are bound to meet in order to make up atoms, but they cannot fall upon each other and are obliged to spin and revolve (all this is clearly explained and inevitable): their motion starts from steadiness, accelerates thanks to degravitation, and is stabilized thanks to orbital revolving.
Generally speaking, particles spin in synchronized motion, which causes gravitation (permanent attraction, although repulsion also exists between them) and their orbital revolution. The orbital motion is also due to synchronized rotations.
The orbital motion tends to dilate the atom, while "gravitation" tends to concentrate it, which provides it with its stability. The atom's motion accelerates or decreases in accordance with external influences, without significant modifications: any concentration is balanced by an acceleration which dilates the atom, and any dilatation is balanced by deceleration which concentrates it. So it solidly resists external influences, while retaining the capacity to evolve when necessary. Polar synchronized rotations, in association with the gyroscopic effect of rotations, are the two most important stabilization factors.
9 - ORGANIZATION OF THE UNIVERSE AND CAUSE OF EVOLUTION by Frank HATEM DSD
For CONTINUATION: ORGANIC AND SPIRITUAL EVOLUTION, click here.
For the BOOKS, click here
And here for lectures.
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