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Part 3 | |||||
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We look here at the forces within the atom and how these affect the way atoms interact with each other and the surrounding universe of particles. The new atom made up of two sub atomic particle rings, each ring comprising a number of energy nodes. if we look at the atom in detail we see it has a gravitational pressure map built up of two graviton forces locked together, the lowest pressure point being where the two faces of the gravitational vortex face each other. The normal ring acts as a pressure valve against increasing and decreasing energy in the super ring and becomes a kind of gate preventing energy expanding down into the negation end of the super ring. These forces within the locked atom try to rotate into the low pressure graviton zone, this causes the whole structure into an offset rotation. This rotation causes yet another centrifugal force stretching the tail end of the super ring. This tail end of the super ring now compresses a small area of low pressure. This low pressure creates a vortex due to the energy nodes passing around the tight corner of the tail before returning to the main body of the ring on the other side of the gate. This vortex expands the tail further preventing withdrawal from the gate ring. | ||||||
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The Atom is now a true three dimensional object with three sets of dynamic forces operating within its structure.
The first set of forces form the normal sub atomic interface particle combining rotation, cavitation and spin. The second set forming the super ring combines the above with the additional offset axial potential, the differential energy potential between the fat end containing the graviton cavitation and the stretched out end forced through the normal ring particle now containing a small negation graviton energy unit. The third set forms the dynamic of the combination of the first two, gravitational spin, centrifugal tension and rotational offset. | ||||||
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The simple atom is looked upon as having three components, neutrons, protons and electrons, has actually only one two dimensional component two times, the Sub Atomic Particle. The pull or gravity of the atom is the quotient left over after the internal gravitational forces have been stabilised. The gravitational pull of the atom, the north and south isometric is an imaginary line running through the gravimetric pressure diagram from the highest gravitational point to the lowest, this will be a diagonal from 'XYZ plus 1 to XYZ minus 1 (see diagram). This is the neutral axes of the particle and gives it a weighted bias on the 'Z' axes in the 'X-Z quadrant. This bias gives the basic particle a wobble as the super ring is rotated in the normal ring. | |||||||||||
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ROTATIONAL TRACKING | |||||||||||
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If we pull back form the inner structure of the molecule we can watch the rotational tracking of the small extended end of the super ring.
If we look at the pressure zoning map of the gravitational pull within the atom we can see how the spin, already destabilised by the wobble, caused by the gravation well and by the difference in the pressure zones, will cause a simple rotation about the neutral axes. However we also have to take into account that the normal ring is rotating, rolling the super ring and that the super ring is also rotating within the normal ring, albeit slowly. It is the sum of these forces that combine to give a spin tangential to the 'Z' axes of the atom, this offset is in a continuous imbalance. The effect of this is to make the tale end of the super ring sweep around the center of gravity in a continuous rolling motion scribing a complete sphere as it does so. The sweep of the tale of the super ring if tracked would scribe a spiral with no forward movement, each rotation being slightly offset from last, this rotation is itself rotating as the spiral rotation rolls with is own momentum. The track eventually scribes a complete sphere that give the appearance of a negation shell. | |||||||||||
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| Part 3 - The Structure of the Atom ŠA. J. Kemp - 2005 - May 2012 |