BASIC CONCEPTS

  

   Nuclear particles are immersed in (surrounded of) eter. Compression of eterons (eter) demands energy. Decompression of eterons releases energy. Density of an eteron is proportional to its internal energy.   E=k.1/r³   where E is the internal energy, r is eteron’s radius and k is a constant. A bulk of compressed eterons tries to decompress. Each eteron, if it is compressed and immediately released, it recovers its previous size. If the compression force is applied for a determined interval “t”, that eteron remains compressed with a much smaller force: the maintenance-force. If that force ceases, the eteron does not decompress suddenly but after a “t” interval. Compression and decompression of eterons (eteron bulks) follow quantum behavior. (Time by energy is constant.)

   Particles (electrons, neutrons, protons) are made up of compressed eterons. In fact, particles are bulks of very compressed eterons.

   If a particle begins to move it must have a place among eterons that fill space. Instead of pushing them sideways it swallows them ahead increasing its own mass, and emitting them at the back. The process is relatively complex.

   Eterons in minimum energy state (maximum diameter each one) repel among them; they touch each other with a small force (BARRIER force) if they are totally still. When two eterons are pushed one against the other, passed barrier force between two neighbor (touching) eterons, they suddenly begin to attract each other. Attraction force is directly proportional to the pushing force. This is an apparently paradoxical phenomenon but it is the base of all quantum behavior. That is why in a wave, the higher is the pushing force the higher is the attraction force; a wave of higher energy compresses eterons to a smaller diameter (and higher energy state). So, the higher is the wave’s energy the shorter is the wave. If a wave is advancing, the whole energy of the frontal surface is concentrated in a one-eteron-thick sheet. The compression of that sheet takes “t” interval and then that sheet begins to compress the next sheet ahead. As a consequence, the wave advances with a speed given by “t” multiplied by the eteron’s diameter: the speed of light. A star compresses slightly the eteronic medium around; diminished diameters of eterons conduct light slower and refract waves (torsion of space).

   A very slightly pushed particle seeks to move aside eterons, but once the force passes the barrier-value, it begins to attract eterons and incorporate them into its own mass. Then the particle has excessive mass and becomes unstable. After a quantum-interval (more mass increasing makes a shorter interval) the particle emits the mass excess at its back. The advancing of a particle is by jumps. It forms a wave (matter wave) that “flashes” on the particle’s path. We name this wave as “intrón”, the wave of inertia.

   When a moving particle is accelerated, to double speed corresponds double eter-density and the half of time, that is to say, double amount of waves per while. Then energy is increasing by the square of speed. Low speeds generate long introns (low frequency of introns).

   The advancing by jumps is an “unpleasant” concept for physicists of 20^th century.

   Now, to understand the following concept, it is needed an open mind.

   The same phenomenon of inertia is the intron’s outcome. A particle (a bulk of mass) in a space without eterons (eteron-vacuum) has NO INERTIA. Intrinsic inertia of mass does not exist. A mass dragged in a space full of eterons must compress them. To compress eterons energy is needed, so to generate introns. Once generated, such intron has a stable “symbiotic” life with particles and such particle continues moving in space (space full of eterons). If something tries to stop such particle, introns use theirs energy pushing the particle ahead.

   Summarizing, inertia is due to introns and NOT TO ANY OTHER thing. Eliminating introns (avoiding theirs generating) inertia is switched off.

   The concept of a moving mass (please, have open mind) is regarding to determined element and NOT regarding an empty space. Empty space has no elements to use as measuring units, so speed is not determined. Space is full of eterons; it is the conducting medium: eterons work as measuring units. If a particle moves with regard to that medium it has a speed. That speed is inversely proportional to intron’s length. If (by any way) we generate a zone in space where eterons move (without compressing them) with regard to the surrounding eterons, like a spinning ring-river, a mass inside the ring’s volume can do two different things: one, to move with the spinning movement of the ring, inside the ring; then we see it as moving in circles but it has no introns, no kinetic energy, no “relativistic” mass-increasing. Two, to be still with regard to the surrounding world; then we see it still, but inside the ring-flow of eter; so it is moving with regard to the eter and it must have introns against that eter, kinetic energy and “relativistic” mass-excess; the word “relativistic” means the same mass increasing, measurement variation and time stretching that indicates mathematically Einstein’s theory. But it is definitively NOT such theory. Again, we use the word “relativistic” only in honor to Einstein.  

   Let us take the first case: a seemingly still mass inside the ring-shaped river.

   Let us take a ring-shaped eteron body where eterons are not compressed. The ring is spinning around its main axis with regard to the surrounding eterons. Inside such ring there is a mass whose speed is exactly the tangential speed of the ring but in the opposed sense with regard to the ring’s eter. So it seems to be still for any external observer. Its mass is increased, it is flattened along its tangential speed-vector and its internal clocks run slower. And, of course, it has a kinetic energy.

   Now, if by the same device that generated the ring-shaped eter flow, we move the ring against the surrounding eter, there will be no inertia forces due to the moving of the mentioned mass. That to say, to move that ring with the mass inside or without the mass, energy input does not vary.

   If the mass is still with regard the surrounding world and we increase the ring’s spinning speed, we must give energy according to the kinetic energy of that mass at that speed with regard to the ring.

   Summarizing: it is the same problem to move a mass against eter, or to move eter against a mass. Taking a neutral eteron bulk with a big mass inside, the energy to move that bulk is equal to the energy needed to move it without that mass… if no part of such mass is prolonged out of the bulk. In other words, if the mass is totally immersed in the eter bulk and we move such bulk keeping always a distance between the touching surface and the mass (avoiding touch the mass) we can move a big mass without kinetic energy. If we remove the mass, we need the same amount of energy to move the bulk. (Please, remember that of open mind…)

   A question arises here. Inside an empty box there is no mass but yes eter. Moving the box, will that eter move inside it?  No, it will not. Let us imagine the box’s internal wall made up of atoms. Consider each individual atom. Moving the box, each atom will see the eter in front (inside the box) as still eter; then it will generate intron against that eter instead of moving it inside the box. Each atom will attract the eter ahead forming intron according to its speed. So the remaining eter inside the box must continue still. Surrounding an eter bulk with matter it is not possible to move such bulk. We need a special mean to move eter without forming introns. Achieving it, every mass inside the eter bulk will move with and inside that eter bulk without forming introns. We must repeat: a mass inside an eter bulk is moved by the surrounding eter of the bulk because it DOES NOT RESITST, it has no inertia. Inertia is due only to introns. But we must move the same eter bulk against the surrounding still eter without applying forces (pushing). If at one side of such eter bulk part of the surrounding eter disappears and it appears at the oppose side, then the bulk moves towards the disappearing zone without pushing forces… with or without a big mass inside! (Yes, it is unbelievable… as an airplane in 18^th century.)

   How to achieve the disappearing? It will be seen later in the chapter on eter pumps.