Eggy

Metadimensional Theory

 

 

 

Fermanl, manuscript. 1999.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Cesium ionization table (I)

 

Table II - Intervals

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Tunneling

Orbiting in vacuum, Eggy is real fast – and quickly reaches the speed of light. Its reaction principle is in fact similar to the one of nowadays quantic ships – you only notice the difference when the fractal buffer lays behind and the spaceship flows through the metadimension reflex flux point.

Let us resume rapidly: we have seen that the Universe where we live and access  through the scientific knowledge beaconed by Quantum Physics encompasses in its whole a structural dimension constantly tuned with an infinite number of other possible dimensions, which expand beyond the dimensional interface of the background matrix detectable through the micro black-holes. We have also seen that this interdimensional tune expresses an intermediate physical reality – the Metadimension. We have seen the laws that rule the metadimension structure and we have learned to build a new manipulable metadimensional object – the Relative Plasma. The Relative Plasma allows us to generate a minimum attrition interface for a spaceship and to produce a deflection spherical rudder which mass equilibrates the spaceship considered mass. We can so set a spaceship into metadimensional orbital flight, controlling and accelerating it to light speed. On this level, Eggy is an excellent ship for intra-system orbital flights – we can, for instance, quickly travel from Earth to Jupiter or Pluto in just a few hours.

Light speed is the maximum speed we can build in metadimensional flight. This derives from the structural conditions of the system we move through: we can reach, but not surpass, the parameters that rule our inter-dimensional environment – and these stem from the balance between the laws of relativity and the laws that rule metadimension. The relativist mass v of a body that move with a speed comparable to light is given by the expression m=mº (1-v2/c2)-1/2, where is the mass at rest and c the light speed in vacuum. In the quantic Universe, as we accelerate towards light speed mass tends to infinite, and that is exactly one of the reasons why the light speed is the limit speed. An infinite mass would need infinite amounts of fuel to move, and hence why all the conjectures on this level lead to absurd. If the metadimensional field allows us to travel at light speed, that is because of the infinite component of the flux vector, which nullifies the exponential reason cited before. However, the metadimensional exponential bonus ends there. Once we reach the equilibrium point (lightspeed), the spaceship behaves like a photon and the energy increments on reaction escape through the wave unstructuring liminar into quantum universe, switching the formation of positron-negative electron pairs as the mass-energy equation rules. In short, energy becomes matter and, in this case, without a positive counterpart for us; on the contrary, this effect induces a growing density on the media we travel through and in spite of accelerating, we brake. Actually, that is Compton Effect around Planck’s constant – an effect we use, precisely, to slow Eggy when leaving the luminary regime.

 

Metadimension is like a bridge lying between our Universe (our Multiverse) and the dimensional world that extends beyond the flux tensors – the Aleph 2, À2. If we could somehow cut the communication with the quantic universe, we would infinitely fall beyond any chance of return, through a singularity similar to the black-holes one; but that is impossible. The elision of one of the components automatically implies the elision of the other and the solution of the system, somehow like the vertigo that veteran astronauts so well know from the states of pre-vigil that precede sleep: we fall… on the same point.

Where we see that things we cannot build may help us in unsuspected ways

To travel at light speed allows us to reach Sun in eight minutes , or our closest star, Proxima Centauri, in four years. Beyond that, the years-light wall thickens until it becomes unpractical for the luminary regime. It is at this point that we must appeal to the hypercampic jump, in order to reach the faraway stars through the tunnel our propulsion system provides.

The discovery of the laws that rule the hyper-jump was, as so often happened along the History of Physics, casual. Until the conquer of light speed, praxis had evolved paced with the theoretical deductions we had formulated; but after that we could not afford any known or deductible parameters to guide our research. We could deduce the laws that rule metadimension; but the flux vector infinity was a component that systematically embarrassed our calculations (already phantasmagoric and constantly obliging us the translation of the quantum physical-mathematical methodology into the meta-quantic continuum). Our predictions always exited into randomness – or absurd. We had to dare empiric improvise, in spite of the risks involved.

We had not ventured yet touching the mass balance of the ship-relative plasma system, but a question twisted through our minds: what would happen if we raised the condensed mass? Would we fall through the flux tensor? Would we create a bow shockwave against quantum universe where we would smash? Would we explode into the tragic split of a mini-nova? Or would it be something different?

We decided to experiment, not with manned ships, obviously, but using two small automated spaceships running a parallel orbit. On one of them we would produce the relative plasma mass increment and the other would function as a witness, registering what could happen. Evidently, at light speed there is no quantum reference detectable: the Universe vanishes on the redshift of acceleration. Nevertheless, we had noticed that, when two ships fly aside at lightspeed, albeit they are mutually invisible their metadimensional aura is reciprocally detectable within the limits of a sphere which radius is proportional to the mass of those ships. Hence we regulated the system of the two spaceships for a synchronous acceleration onto lightspeed, and the system of the test-ship was settled to generate a gradual increment of relative mass after that. The experience would take three seconds, after what the test-ship system  (hadn’t the ship been destroyed) would automatically reduce the energy flux for the relative plasma to  the level of equilibrium. Both spaceships would then brake down in order to be recovered.

The results quite surpassed all our expectations. The gauge ship was recovered at the prefixed point. It quietly orbited over Saturn (lecture 20040630 – Cassini), exactly 30º over the ecliptic, as predicted. As from the test spaceship, no signs. What could happen?

We run into the database. The events sequence had been minutely detailed and now it ran  before our astonished eyes. Until the luminary regime, the witness ship had registered in video the flight of its partner. As the speed increased, the redshift blurred the ship’s contour, until the relative distortion completely hidden it; but at the point Lº - lightspeed – the metadimensional echo of the test-ship was perfectly clean and synchronous. Then the overmass period started (Flux Ramp _ Ynequalities) and happened what none of us could preview: the test-ship echo moved on the radar screen and disappeared. The test-ship had accelerated! The impossible did happen: we had surpassed lightspeed (before Gran Sasso)!

The racket inside the Control Center was indescribable. Everybody talked at the same time, while the most skeptic raised their hands to their heads unable to switch off from the loop where the historic sequence had been registered. It could not be true, there had to be some mistake, somewhere! Yet there was no error. Six seconds after, the Universe and its constellations emerged again from the screen, and the working spectra for the several systems were linear along all this process.

Someone found somewhere a bottle of champagne, and the cork jumped out with a blast that echoed along the whole Center. And exactly at that moment the explanation for the success installed into my brain, with the clarity of simple things: the increment of mass had potentiated the flux vector and the test-ship had accelerated along the infinite exponential, keeping the inertial course and diving onto the À2  wrapped into its metafield! My suspicion was confirmed: the singular characteristics of the metadimension allowed to surpass the quantum universe limit-speed – lightspeed. Did the test-ship survive the experience? If my deduction was correct, there was a good probability of finding it somewhere along the metadimensional orbit (the metadimensional orbit is not coincident with the calculations for a spatial orbit in the quantum universe: it tangentially escapes to the latter towards the local galactic gravitational escape line – an ideal straight line a body would follow if it could completely escape the geode of curved space-time generated by the galactic field) defined for the test.

Bingo! The test-ship was waiting us about 2000 million kilometers from Earth, closed to Uranus orbit. It gently fall retraced against the background star field, as if surrounded by an unreal symphony of the old Earth. It was intact! Had survived unscathed an acceleration that no human artifact ever supported, transposing in six seconds a distance that light took almost thirty minutes to cross!

The progress provided by this success was, naturally, enormous. We immediately started experiences with animals – the first live being that, besides virus and bacteria, travelled faster than light was a cat, or better, a kitten, Lina, which exited the test-spaceship wearing its polka dot bow tie and expressing an aristocratic serenity that would astonish Duchess. Soon we moved into manned flights and, gradually, we begun discovering the relationships that rule the binomial speed-mass for metadimensional supra-luminary  flight. Happily, the inter-stellar space abounds in vast and empty tracks where light-year errors are irrelevant… Yet, beyond that, our record of peculiarities derived from relative contraction of space-time grew to be as huge as our database of scientific knowledge.

We noticed that the velocity increment is directly proportional  to the squared mass of relative condensate and conversely proportional to lightspeed, a relation we can translate as

                                                                    Vsl = M2 / Lº

where V is the supra-luminary spaceship speed, M the translated mass of relative condensate and Lº the speed of light. If we apply this formula to a small spaceship of 300 kg, we see that

                                                          Vsl= (300,000gr)2/300,000

which, for a condensed mass equivalent to the spaceship, gives us a speed of 300,000 Km/s, as we have seen. If we duplicate the condensed mass, so making it correspond to double the ship one, we see that

                                                        Vsl = (2X300,000gr)2/ 300,000

which corresponds to a velocity of 12 X 105 Km/s, 4 times the lightspeed. A triple relation reaches 9 times the lightspeed – and so on. If in spite of a 300 Kg ship we use a 600 Kg one, we get… No! The relation we saw before keeps ruling, independently of the spaceship mass variation! The translation of the metadimensional interface  is ruled by a transformation of the formula for the energy of the metafield where the wave unstructuring liminar, d/2, modulates constant relation we have just described. We can so resume very simply saying that the supra-luminary speed factor equals the squared factor for the ship’s mass, which constitutes the first law for supra-luminary regimes and designate by Transference Law or Factorial Law.

Another consequence of the particular characteristics associated to supra-luminary flight (or simply SL Flight) through metadimension is that we must follow a pre-programmed rota; once we overlap lightspeed, there is no quantum spacetime where we can actuate any directional deflector system – the ship is faster than any energy emission we could conceive, hence why the one alternative we are justify with is speeding or braking. This is not a disadvantage: we can always calculate any “dive” into any point of the quantic universe (within certain limits we will discuss further on) and then use the directional systems we dispose for under-luminary flight (UL Flight).

SL flight, although occurring through the metadimensional singularity, is not yet the hypercampic jump; it would take some time until we could manage a practical use of the tunnel effect. Meanwhile, the SL test flights went on. We constantly searched for faster speeds once, after the initial euphoria, soon we recognized that it would not be enough to be faster than light: we had to be very much faster in order to reach a speed that could take us to the stars. Let us consider, for instance, the case of Proxima, our neighbor star on the Centauri which light takes 4 years to reach Earth. Flying at the speed of L2 we would spend, following an empirical logic, two years (730 days) to run the 37,843,200,000,000 Km that separate us. The subsequent values are, as you can easily deduce,

 L3 > 486 days

  L4 > 365 days

L5 > 292

L6 > 243

L7 > 208.5

L8 > 182.5

 L9 > 162

L10 > 146

  .....................

     L20 > 73 days!...

     L25 > 58.4 days, which is, two months.

Even travelling 25 times faster than light, which is the fantastic speed of seven thousand and five hundred million kilometers per second, it would still take two months to reach the star closest to our Sun! Two months of hibernation, without any contact with the exterior Universe, four months counting with the acceleration and braking phases!... We could say good-bye to the galaxies millions light-years deep into the far away space!...

However, we had no motive for real distress. The evolution of the results allowed us to soon centuplicate light-speed by decupling the condensed relative mass.; but once we reached that level it seemed problematic to obtain better results. Energy was not our problem – the field translation kept modest, requiring minimum quantities of plasma for the enormous increments obtained; but the tensor aura of the metafield had become very strong and our instruments started acting quaint. At first we did not care, crediting those facts to the quondrums normal around any system where the quadrants, screens and the thousand and one accessories  for coordination and processing of information that build the environment of any spaceship multiply… This easy mood should make us suspect that the metafield aura was affecting us.; but the rare signs of alert and strangeness only showed sporadically during the rest periods, vanishing as soon as we were involved by the metadimensional fields. Physiologically we felt absolutely normal. However, around L80, some anomalies started creeping into the computers: small accessory programs that unexpectedly disappeared from the system leaving no trace, peripherals that deformed data without any apparent reason – and functioned normally around innocuous environments, small configuration errors that obliged the reprograming of data. When we reached L100 it was frequent to see the mouses dancing on the screens in joyful quantic leaps and we dismissed system freezes with constant reboots as if it was the most natural procedure for all universes. We were seriously affected by the metadimension – and we did not realize it. It was a miracle that until then we had not been victimized by some serious disaster.

And then, one day, it happened.

 

                                                     End fof Part I

The fiction description of the Eggy (2001's pages) ends here. The next two texts, About Cesium and Tetragramaton contain technical data also finished in 2001. A few corrections have been made on this translation. Fermanl planned to write a description of the Physics implied on the Hypercampic Leap but could not finish this project because of the crash related in the preamble. “The structural environment around the HyperLeap implies the mastership of a theoretical domain very hard to contrive. A known conundrum around Sci-Fi is that the more rigorous your scientific approach is, the harder it is to fiction about it. You cannot fool the Time Star. So I kept on developing my structural research and gathering notes and data for my Meta-Physics. This work is dispersed through many texts and papers and I started publishing a few pages here in Essays and Developments. I am waiting for all comments and echoes of scientific or commercial interest about these matters to decide the best way to ride on.

Meanwhile, Physics tremendously evolved through this last decade and my work naturally encompasses this evolution. When I started my research, mobiles were science fiction; nowadays you got iPads with portable studios for music and video production. Do you want something simpler? Take a good look at the opening fill-rouge on the round boxes of cheese-paste ‘La Vache Qui Rit’ and stretch to break it; impressive, isn’t it? And just wait a few months for the new nano-carbon tresses… Science rules; I will do my best to keep my customer satisfied. 

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The Birth of Paradox

Lightspeed is the stability liminar for the quantum universe. That’s why it is, simultaneously, the maximum and minimum velocity possible in that universe – because our whole physical perception of the Universe is a construction a posteriori upon the speed of light (Heisenberg Structuralism). The paradox around the problem of infinite or null time for the mass-energy equation in Special Relativity necessarily implies that other paradox. This means that metadimension solves the paradox. That stems from the singular characteristics of the flux vector because, as we have seen, it nullifies discretization on the frame of Cantor’s Continuum Hypothesis.

 

About Cesium

Cesium 137 is a radionuclide that spontaneously emits gamma radiation. The element in nature has the following heat points: fusion: 2.09 Kj mol-1; vaporization: 65.9 Kj mol-1; and atomization: 79 Kj mol-1 (UC, 19980603). This means that at the temperature of 79 Kj cesium gets atomized, which is, its molecules decompose. At this point, the atoms expose their superior orbital levels - we say that their covalent affinity is at its peak. On this state, it is easy the capture of massive particles incoming from easily unstructurable environments as is, e.g., the case for tritium – like deuterium, product of a multimolecularization of hydrogen, but less stable.

We already know that cesium iodide and bromide are used in scintillators, because they easily emit electrons when exposed to radiation (the first great industrial application of cesium remounts to 1926, when it started being used as an additive for tungsten filaments in order to raise their work function in radio valves). On Eggy’s lamps, we just use an alloy with bromoiodide of cesium and tritium.

As soon as the temperature created by this mixture resistivity reach 79 Kj, the “naked” cesium atoms avidly react with the super-energized and ionized tritium plasma; cesium enters isotropic climbing according to the frame Cs1 – which contemplates the triple energy and the loss by Raman effect.

Let us take a closer look at the differences between the presented intervals (Frame Cs2). We see that the curve of temperatures is an exponential sinusoid: it grows to the level 5, starts a new cycle until the level 8 where it registers an energetic difference of 3,000 Kj and reinitiates its climbing flight below one half of this value (entropic inertia), swiftly jumping to 11,000 Kj. When the Cesium 132 atom captures a hydrogen nucleus, outcomes its isotope Cesium 137, which has an atomic weight equal to the Barium 137. The temperatures table for barium closely duplicates the values for Cesium 132. However, barium reaches its ebullition point at 2,079 Kj; that is why on the ionization cesium interval 6.7-7.8 the formation of Cesium 137 occurs – a radionuclide that decays from its critical energy spontaneously emitting gamma radiation on the band of 11,000 Kj.

 

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