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7 Ages: EFE revis(it)ed


7th Isomorphism: Its 3±∆ ages and evolution: Spe≤ST≥Tƒ

∆-1. Birth as seminal nebulae Max. Sp that shrinks into regular spirals (Sp=Tƒ), collapsed into ∆-globular forms that die, exploding into quasars (Tƒ<Sp) in a 20 bill. Years Sp-Tƒ bar-spiral cycle.

The Three±∆ Ages of Galaxies


  The life cycle of a galaxy goes through 3 ages, evolving from a young, extended nebula into an old small wormhole of informative mass that dies in a quasar Little bang of dark Entropy and quark matter. In between, galaxies live a longer, mature toroid, cyclical steady state, fluctuating every 14 billion years between its spiral and elliptic form, while absorbing interstellar dust, which creates new stars and feeds the central Worm Hole.

In the graph, the structure of a galaxy can be compared according to the homologic method of self-similarities between the ‘elemental’ units of each scale of reality with an atom vortex or with a cell, with a central DNA of social worm holes and a protein membrane or halo of quark, dark matter, made of energetic strangelets and microholes.

The ages of a galaxy in time are the same of in any other space-time field. Each of those ages or time events can be divided according to the law of ‘ternary diversification’ of time events into spatial processes into three spatial forms of reproduction. Thus, a galaxy can be created by three processes:

– Seminal conception and Youth: Galaxies are created with three types of reproduction:

-Max. Es: A galactic Little-bang quasar catalyzes the evolution of gas into stars. This birth is similar to a star Little-bang (nova) that catalyzes also the creation of stars or a Hypothetical Universal Little-bang that catalyzes the creation of galaxies.

– Es=Tƒ: Palingenetic conception, when the informative nucleus of Worm holes of a giant mother-galaxy emits a huge jet of dark, quark matter that ends into a baby galaxy.

– Max.It: Social evolution of energetic gas that creates complex star structures.

-Es=Tƒ. Maturity/reproductive age. Galaxies enter their steady state of reproduction, in which its spiral structure matures: stars gather in social groups and at its center a Worm hole, the informative nucleus, structuring its body of toroid, cyclical paths of stars.

Galaxies then mutate back and forth, from spiral into elliptical vortices of mass, feeding on interstellar gas, in a cycle that creates and destroys its spiral bar every 13 billion years in a quasar Little-bang that renews the Galaxy and coincides with the parameters of the cosmic Little-bang of continuous models of space-time.

– Max.It; information age: In their 3rd age, once galaxies exhaust their interstellar gas, their central Worm holes digest their star bodies, becoming globular, spherical forms with a hyper dimension of informative height, till they exhaust all their star Entropy. As dark galaxies, without the drag limit of c-speed caused by their electronic and radiant matter they now accelerate as pure worm holes up to z=10c; forming invisible, complex networks of dark matter.

It must be noticed that as all systems that go through 3±i ages of evolution, the final stage after its 3rd informative age has ‘2 solutions’, death and reversal of form into Entropy or ‘transcendence’ into a higher super-organism, communicated by the language of information of the system (so insects evolved into successful anthills while others become extinct and humans evolved into societies while most other mammals became extinct). Thus:

   – (∆-1): Some galaxies die as quasars, becoming again according to the inverse symmetry between the 1st and 3rd youth and old age of all systems, irregular galaxies that will feed a new cycle of galactic creation. So irregular galaxies are both the youngest and oldest forms of the Galaxy, a fact that still confuses cosmologists.

   – (∆+1): And those with a higher quantity of informative black holes in their nuclei evolve socially as cannibal galaxies, forming galactic networks in cellular groups that evolve socially into the large scale structures of the Galaxy. Their central Worm Holes grow, swallowing radiant matter at growing speed, and perhaps evolving with many other galaxies into a cluster Galaxy, of which there is no enough experimental evidence.

Thus, we differentiate the Little-bang or death of any scale of the Galaxy from a Little-banging or reproduction and self-organization of the present Galaxy and a 3rd age or Little-crunch, followed by a Little-bang or a process of emergence into a superorganism, which creates a generational cycle for any fractal space-time in 3±i ages.

The Huge Galaxy and its galactic, fractal Little bangs.

Since the age of a galactic cycle, 13 billion years, is the same that the age of the cosmological Little-bang, as Fred Hoyle affirmed, the cosmological, continuous Little-bang might be the sum of all galactic, fractal Little-bangs and the Huge Galaxy is not expanding as a whole. It will exist in a steady state, in which the knotting of space into mass by galaxies would compensate the expansion of mass into dark Entropy in the interstellar vacuum, which causes its expansion. Further on Little-bangs at the lower galactic scale, caused by the quasar explosions of its central Worm holes when they break their bars every ±14 billion years should be the origin of the second proof of a cosmic, continuous Little-bang – the excessive quantity of helium in the galaxy – found precisely in bigger quantities on top of the central Worm hole. Finally, background holes born of planetoids would redshift radiation at 2.7 K. Thus a fractal quasar Little-bang provides the same experimental proofs and better theoretical explanations, eliminating the multiple contradictions of the cosmological Little-bang.

Thus, a steady state theory of the Galaxy combined with a fractal theory of multiple Little-bangs/quasars, as it was reformulated mathematically by Fred Hoyle, in which the multiple, constant Little-bangs of galaxies into quasars are responsible for helium formation, redefines the Galaxy as a huge fractal scale of cellular galaxies in eternal balance with the expanding space, where light devolves back into 10 c dark, gravitational Entropy and dark Entropy warps into light by redshift and dark matter into galactic matter, imploding space:

Sp (dark Entropy expansion) = Tƒ (dark, quark matter implosion)

Such balance, coupled to the constants of proportion between the energetic and informative elements of a complementary system,. explains also, without appealing to the magic anthropic principle, the universal balance between matter and radiation, whose probabilities otherwise are null. Indeed, why matter and Entropy are in balance in the Galaxy at this exact moment in time, in a proportion of 1 to 3 (as mass is bidimensional and radiation 3-dimensional) if their relationship is dynamic, changing all the times, with Entropy winning the battle and expanding faster?

The answer is: because the Galaxy and any partial system within it exist in 3 to 1 balances between their Entropy and information/mass and when those vital constants of balance break the system ceases to exist.

Recap. Galaxies live through the 3 same ages of any space-time, born as seminal flows of dark Entropy and electromagnetic radiation, ejected by giant galaxies that condensate into quarks dark matter and an explosion of electronic forms and the creation of atoms and stars, start the reproductive age that will collapse into a central Worm Hole, back to the original quark-gluon soup that gave it birth.

While the study of the different isomorphism should go on line 3, as I was looking to old 2 decade files of the first self-published book with 5D physics (physics of time, now ‘extinct’ unless some ‘Nobel prize’ or university kept it), I found this funny graphs, on the duality and ternary symmetries that give birth as usual in all systems to the 6 main species of ‘female ternary space-time species’ and ‘male ternary space-time species’, to use the organic jargon I have always preferred and of course made T.Œ unpalatable to any reader in the past (-:


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In the graph, the most likely interpretation according to the laws of the scientific method, resumed in the acronym formula, E=Sce (evidence, simplicity, cyclical repetitive ‘laws’, correspondence with previous theories and ternary Complexity, born of the iterative repetitions of the Generator of fractal, cyclical space-time), further proved by the ‘ad ons’ of 5D T.Œ: Time arrows, Organic structure, and Complex Ternary symmetries in 5D cyclical space-time, added to that formulae (T.œ=Sc3); the most likely nature of the big-bang is local – very likely the quasar big bang of a 20 billion years cycle of life and death of the Milky Way, a barred galaxy, which is today exactly in its form on the 14 billion years mark of that tabulated 20 billion years cycle of Barred galaxies.

All the problems of the cosmological big-bang both theoretical, metaphysical and experimental, quantitative can then be resolved. Theoretically the equations of the big-bang are just the entropic, reversed, death equations of a black hole. Such explosion would account for the amount of Helium near the center of the galaxy, and the density of matter-radiation, which coincides with that of the galaxy. The asymmetries and form of the background radiation obtained in local measures will coincide with that of the galaxy too. Its origin on the local big bang from the remote past, or most likely on the activity of ‘Moon MACHOs’, the smallest black hole particles of the ‘triad’ of 5D scales of mass in the Universe, which if having the mass of a moon planetoid (the most common cosmic object of the Universe) will produce exactly the same redshift temperature radiation. And so on and so on…

The fractal structure of the Universe on the other hand will account for the expansion of the intergalactic space, the cosmological entropic vacuum scale, where ‘Gravitational transversal waves’ will act as repulsive gravitation, in the same manner their microcosmic equivalent in the charge scale act between particles. While the vortices of contraction of vacuum energy into mass – galaxies will balance that expansion, on the flat plane of the spiral.

In the graph, we see then the characteristics of those multiple little quasar bangs, in which dark matter made of the heaviest 2 families of mass (top/bottom/charm quark combinations that form the atoms of black holes and strange quarks that form the core of neutron, pulsar stars and strangelets in the halo). Thus they would account for most of the mass of the Universe. In terms of mass energy, as we consider on the present formalism a 4-vector momentum with 3 dimensions for space and one for time-mass, ultimately we observe a 3 to 1 proportion between ‘Lineal Space’ (G-waves of repulsive transversal gravitation) and the dimension of mass.

The galaxy on the other hand, does NOT contain repulsive gravitation as it is the interior region of the galaxy atom, which is purely attractive. Its configuration is equivalent to the theoretical configuration of the ‘cosmological big-bang’ now reduced to the barred galaxy big-bang cycle. And so we find again the ternary symmetry of the III families of mass, which form the 3 components of the galaxy atom, its ‘strangelet’, negatively charged Halo, its positively charged central top quark black hole, its 3 invaginated networks of information and energy (neutrino and photon background) and the plasmatic ud-mass of light mitochondrial stars. What is the role of the planetoids made of atoms in which humans exist. They represent only o.1% of the total mass of the galaxy, as almost all ud matter is in the form of star plasma.

So we might conclude, humans are NOT that important; an planetoids and planets on the 1 to 106 relative mass scale we find between moons and the heaviest Jovian planets which can be considered small not-ignited stars are the scalar range to feed strangelet matter that will end up in the Halo. This simple harmonic scale has only a problem: anthropomorphism. It makes us irrelevant, it puts the high popes of astrophysics back to Earth on their delusion of understanding the whole with a human self-centered perspective, and certainly makes sheer madness the experiments now carried out on Earth in search of self-feeding self-reproductive dark matter (strangelet quark-gluon soups, now starting to be produced at industrial scale at CERN and future accelerators at China).

We can now consider if briefly the ages of the Little-bangs that happen all over the Universe every time a Galaxy lives and dies, returning to the Dark World. Even if we were describing the Little Bang of the Cosmos, it is a necessary perspective for the ego-centered human to reduce its cosmic, galactic, universal epithets to the lowest of all perspectives, that of a microbial species, ‘Cantor dust of space-time’, ‘rational zero interval of the irrational infinite’, humble 0-mind who matters not more than mater. And this I advice to the reader, because it is the best way to survive and go around the Universe.

In any case, even if the cosmos had a big bang of 14 billion years, from ∆+5 it would be an infinitesimal point dying away on the truly absolute Relative Universe. So we will call all big-bangs, little bangs. As that is the meaning of it.

Now this is the most likely reality – a Universe in the ∆+4 plane, beyond the ∆œ human perspective of a relative infinite number of galactic anti-atoms (as the symmetries of 5D are inverse and so we need to jump two scales to find a similar being, 2 scales of life to find robots-like insects, to scales of cells, to find nations-like cells, DNA-like humans, and so on.)

So those anti-atom galaxies might be part of a larger bang, the cosmic little-bang, which however would be of a dimensions that we, infinitesimal inhabitants of a galaxy anti-atom cannot even imagine and it is not worth to explore.

So we shall reduce ourselves to the description of the Little Bangs, we do know about, with the laws of 5D physics.

The death of micro-light waves.

Now in 5d physics, tiredness=death of light is not provoked by the smearing of light paths by dust and other ‘chance’ collisions of light, which would rightly as Zwicky pointed out smear the image of far away galaxies, but exactly as in the cosmic big-bang and general relativity by the expansion of the underlying space-time ‘scale’ of the Universe, ∆-1. The difference though is that in 5D physics:

  • The c-limit of speed only applies to ‘galactic space-time’, where the underlying gravitational space is ‘contracted’ by the -c2t2 factor of special relativity (simplest formalism), due to the frequency creation of time-information by light over the underlying gravitational space-time.
  • When this gravitational space-time is liberated from galaxies, it ‘stretches out’, dissolving its information into entropy, and its speed becomes ‘NON-LOCAL’, from the point of view of a light space-time observer. The formula is immediate. As V=S/T, and Time stores information, as information disappears (invisible gravitation), then C=S/o-information = ∞. Thus the Universe becomes infinite non-local and this allows that the cosmological Un+4 scales IS connected into a present ‘spatial view’ (the previous artistic graph).

Now this fact is essential to the scales of 5D systems, as it ALLOWS the fundamental symmetry between time ages and present still space-organisms. All SCALES of the 5th dimension MUST have a force able to create a relative simultaneity in a single time quanta that communicates its parts to create balances and metabolic equilibriums. Thus there MUST be a relative non-local faster than light speed, with less T-information, and this is ‘dark energy’; which we consider to be the ‘repulsive electromagnetism’, of the galactic atom.

It is then easy to see that the speed of such G-waves would be infinite in terms of human perception, and the quantity of information they carry minimal. Indeed, if we consider a ‘Hertzian’ wave at this scale, it would carry a bit of information for several parsecs. But it would allow a spatial view of the Universe.

All this of course belongs to metaphysics, which as we said is the true nature of cosmology, as there is no way to perceive experimental evidence  ‘outside’ the halo meaningful.

Yet the linguistic isomorphic method make us to consider a reasonable assumption that scales beyond our perception will follow the same isomorphisms of scales within our perception. So we can use the same formulae and deduce the non-local invisible nature of G-repulsive Giant Transversal gravitational waves between galactic-atoms and within each internal atom, to control the stars and halo of the galaxy.

Now from the perspective of a light space-time observer the space-time between galaxies, being invisible won’t be observed as a tachyon, faster energy wave, but as a dilating distance. And so it will be seen as a cosmological expansion of space (balanced by the implosion of each fractal galaxy atom, to maintain the whole Universe in immortal balance).

Thus the effect on micro-light waves will be the observed red shift.

Indeed it follows that what we call light does travel through the expanded intergalactic gravitational space-time, and red shifts.

A second phenomena also must be observed, namely the ‘internal’ death of light, as all forms of the Universe do have a world cycle. The light world cycle is likely to be of a mean 10 billion years similar to the life cycle of its ‘photonic quanta’, the stars of galaxies, which are basically dense configurations of light and plasma; the equivalent to the particle state of light. And this 10 billion years light world cycle is what we observe with an expansive age of light as it goes through the world cycle, further accelerated in the 2nd part of the world cycle (5 to 10 billion years).

It follows also that the furthest stars will emit ‘younger’, longer living light, so the further we look onto the galaxy, we shall see arriving to our galaxy, only younger stars, till a point where we do not see more light coming.

Further on, as all forms are relative ‘pi-cycles’, whose membranes do NOT let see the external universe except by its ‘holes’, the halo of the galaxy must limit as all membranes what we perceive from outside. This again happens in any entity inside a super organism. Our cells do NOT see the external world, and only the sensorial eyes do see it. So the next question is how much is ‘dark energy-space-matter-form’, from an inner observer of a relative fractal knot of space-time.

The calculus of an ideal pi cycle is immediate. As a pi cycle is made of 3 diameters, with outer holes between them, in our curvature electronic space-time minds, where pi is 3.14, we ONLY see through o.14 holes of a 3.14 diameter. so there is a 3/3.14 darkness, of regions we do NOT see from the interior of a pi cycle.

As it happens, 3/3.14 = 96% which would be the dark world for any inner relative mind point of view. As it happens dark matter and energy accounts for 95%, which is there and we do not see. It is then the halo the membrane that ‘darkens’ the Universe?

We do have for the sun the membrane called the Oort and Kuiper belts… But they are internal to the super organism of the galaxy, so we shall discuss it on its scales. but still they do darken part of the galaxy despite being internal ‘open’ cells. The galaxy though IS the true fractal point (the equivalent of the atom, darkened by the electron and the Nuclear force cover).

So the reader should understand how much uncertainty exists in cosmology.

Back to our theme of the cosmological redshirts and its now ‘3 causes’ (as always in the ternary Universe) we can write them within a Generator equation, this time expressing the 2nd Non-Euclidean postulate of lines≈waves of communication:

Tƒ (emitter: Original red shift by expansion) < ST (red shift by wave dying) > Tƒ (Halo, likely ‘blue shift’ back to create background radiation and reduce to c-speed the wave).

Those 3 components are just a case of the Fundamental equation of particle physics:

Tƒ(Fermion)< ST (Boson wave) >Tƒ (Fermion)

applied to the upper cosmological scale.

The study of that equation in 5D physics is an entire field of cosmological research for future 5D cosmologists, if we survive the age of ‘lineal macho-man Neanderthal physics’. So here we shall make some comments on the death of light (ST cause).

As light dies away it is canonical in 5D astrophysics that entropy will elongate as all death processes the space-time, which in terms of the duality motion=form (Galilean paradox) means an increase of distance. Moreover, because light does have a 10 billion mean age (same for stars made of light, here the part does live as the neurons and the head, the same than the whole but NOT longer; so light dies before the stars mean life). This moreover explains why after 5 billion years, its maturity at the height of its world cycle, life accelerates its death-elongation into red color, till fading away. Which also explains why we do NOT see more radius to the Universe:

Light cannot come from beyond that radius because that is the limit of its life NOT the limit of the whole, but of its waves of information, its minimal part.

Indeed, it seems that light beams and light-evolved entities (stars) have a mean cycle of 10 billion years, after which they suffer an energetic big-bang expansion – stars explode into Novae and light gets tired and expands in a redshirts process, returning to its gravitational, non-local lower scale of dark Entropy.

This of course explains why far away light red shifts and seems to expand space: it is dying and beyond those mean 10 billion years an increasing ‘darkness’ is observed in the Universe, which a simple Gauss curve of probabilities show to be almost absolute beyond the x+1/3rd 13.3 billion years range.

Again physicists don’t see both, the dual space and time views of the Universe but only the temporal big-bang, which considers a cosmos in time failing to analyze it in space as a simultaneous system connected by non-local gravitation. So they think darkness is not caused by the spatial death of light, which they merely use as a clock of cosmic time, thinking therefore that beyond those ages we enter into a temporal darkness – and the Universe didn’t exist.


In the graph, we illustrate how complex physics, using the same data that Simplex physics of a single space-time continuum can resolve the puzzles of the Universe. Cosmologists have found that light coming from far away galaxies seems to decelerate and accelerate its red shift till dissolving around 1010-11 years after its emission. And they affirm this is a proof of an expanding Universe, as they apply a local phenomenon, the life/death curve of light self-similar to the life-death curve of any entity, which increases its frequency till its ½ life and then decreases, becoming tired till death, to the entire space-time of the Universe (a global symmetry).

The tiredness and world cycle life-curve of light however only applies to a local phenomenon: light tires and red shifts at the end of its journey, dissolving back into gravitational dark-Entropy, which is perceived as an expansion of the light-membrane, but that effect is compensated by the contraction of space into mass in the galactic vortices giving us a zero-sum.

Let us then study in descending scales those 3 little bangs.

5D Lorentz Invariance: A 4D cosmic electron membrane of the canonical big-bang.

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We do NOT fully deny the cosmic scale of the big-bang, which 5D somehow makes logic (it would just be another scale of big-bang of an atom-Universe. There are certain basic numbers that back that opinion. The number of galaxies, 1011 is the constant of social order between planes of the 5th dimension.

The relationship between the Force of Gravitation and Charge (temporal curvature), is according to some estimates (already noticed by Feynman and I believe Eddington), the same that between the radius of the proton and the Cosmos (spatial length). So it fits in 5D Metric: Sp x Tƒ = K, better than a possible ‘local cluster’ big-bang with lesser radius. But those numbers have been varying a few potencies of 10 here and there. In any case it is a proof of the force of 5D metric that even if we ultimately reject the cosmic big-bang for lack of experimental data, we can for the first time explaining rationally without creationist ideas.

The spatial symmetry on 5D big-bang; all galaxies are in the expanding membrane of the ‘electronic cover’ of the cosmic neutron explains Lorentz Invariance nicely.

Now in the parlance of physics, this mind point of view is called ‘relativity’, which implies we cannot distinguish frames of reference when we choose one at its center.

Now in the present format, the ‘subjective use of the human frame of reference’ at the center of the big bang, could seem a misinterpretation of the meaning of the Lorentz Invariance to suit ‘us’ – ultimately another ‘anthropomorphic’, man in the center, reality only what man can see, subjective theory of religious ‘nature’.

But this would be an easy critic. An not an accurate one. Since In the case of the previous picture for that to be real – not frame of reference – the solution of physicists is obvious and quite smart and realistic: the entire picture is actually NOT a ‘volume’ but a membrane, like the expanding surface of a globe. If all the galaxies were pegged in the expanding surface of an SP-Membrane any POINT would see the rest of the cosmos which being so ‘large’ would appear as a flat surface, in the same way we see the Earth as a flat surface and any point on the Earth could in principle if light would curve a bit through the surface see the entire globe as a flat picture.

Of course those models are available in the ‘avalanche’ of ‘fantaphysics’, that is mathematical games without a criterion of selection. On my view the more interesting is the one of Mr. Merab Gogberashvili where he shows that if the Universe is considered as a thin shell (a mathematical synonym for “brane”) expanding in 5-dimensional space then it is possible to obtain one scale for particle theory corresponding to the 5-dimensional cosmological constant and Universe thickness, since it solves the hierarchy problem in a similar fashion – in this case the smaller scale of particles do have more ‘energy and information – that extra-dimension and further on our Universe is stable since the extra component of the Einstein field equations giving the localized solution for matter fields coincides with the one of the conditions of stability.

Latter the Americans proposed the closely related Randall–Sundrum scenarios, which have as usual become more popular with the Anglo-Saxon drum beat of self-propaganda (this is common in the history of science since the times of Leibniz to the times of Landau->Hawking and Linde->Guth).

Now in our terminology this means the following, generalizing it to 5D Geometry, which is NOT so much concerned with ‘spatial geometry’ but with the arrows of energy and information that transit between scales:

Now one of the beauties of 5D science is that we can take any relative ∆±i scale in our analysis of reality and change slightly the perspective and will get a meaningful view of it all. So when we take the largest ∆+i perspective on the being we see it as indistinguishable atoms, but if we have an ∆-1 perspective it looks like a ‘living cell’, which is a very convenient perspective to study the whole, as we observe it perfectly together, surrounded by a cyclical time membrane, with a nice central o-point and a series of perfectly designed organic cycles.

This is the perspective we can have of a nation, as a cell of the superorganism of history with its borders, human DNAs in its homes connected by networks of economic energy and legal information. Or the perspective of a human cell-citizen, or a biological cell. This is the best way to study the galaxy as a cell of the superorganism of the Universe made of 1011 of such cells. The structure of the galaxy cell thus will ‘focus’ this article, since it is the perspective, which we can elaborate with a minimal amount of information to make it a likely truth.

Of the Universe as a whole we cannot make such a big statement of truth, as astrophysicists, human ego-centered masters of the Universe think, but we can keep exploring their cosmic big-bang, and explain it as a 5D probable truth. We shall see it is of the two possible explanations – an extensive Universe of multiple atoms/cells/galaxies well beyond the limit of the cosmic horizon, vs. a growing beta decay universe or a cellular organism, the 2nd likely explanation. So for probabilities of truth, we range them as:

Max. truth: quasar big-bang < Med. Truth: Cosmic big-bang < Min. truth: cellular cosmos.

Ultimately though the 3 of them admit a larger ∆+1 scale of the Universe, a… Hyper-Universe and big bang death.

The mimetic ages of Little quasar bangs.

Now it what follows we are going to deal mainly with 1 theme, the organic structure of the Galaxy and its parts according to the Generator Equation.

It is within that structure that big-bangs of any of the scales of matter represent merely the entropic death of the matter vortex in a quanta of time according to the equation of death of any system, physical or not

Death-big bang equation: Tƒ<<Sp: Max. Sp x Min. Tƒ->Sp=∞ x Tƒ=0

So it is not a big deal, which is the scale. As we have explained it matches 5D metric including the inflaton field: Sp x Tƒ = K. Thus in an infinitesimal time quanta (10-42 in the big bang), in a similar account the Universe expanded a similar quantity (1042 proton radius in the big bang). It is simply too large with the data we observe. So we imagine that the QUASAR-bang will follow exactly the same metric, and ages of the cosmic bang, but the relative Time speed of the Galaxy when the bang-death of entropy of the black hole took place will be slower, of the range of top quark interactions (10-25 seconds) and the diameter of the central black hole once it expanded after its death will be that of the galaxy: 1021 meters.

In brief, the ages of the Little bang are far less speculative as sciences must be than the big-bang. Its first quanta of ‘death’ of the black hole did start when the speed of time clocks of the black hole went under the mean life of its particles, top quarks, which are the likely cut-off atoms of the black hole. As the little bang expands the galaxy in a similar fashion to a double beta decay that expands the nucleus up to 100.000 times to create a hydrogen atom.

Thus time slows down to the ‘year’ cycle of its ∆-1 ‘cell’, which is the angular momentum of most star systems, the ‘photons of the galaxy-atom’, taking our planet orbit as a mean for them, in the same manner that the cycles of a living human being slow down from its faster seminal system to the day cycle – the mean cycle of its cells, the ∆-1 scale.

This is the application of 5D physics, NOT of weird laws of time. But of the metric of the 5th dimension and the processes of growth of systems which are synchronized to the slow down of its internal time cycles at the ∆-1 cellular lower level. At this moment the system is synchronic between its 3 ∆±1 scales and its space-time measures are in relative proportion.

What is then the growth of the little big-bang. Simple to calculate. If a nucleus of an atom grows 100.000 times to become the electron radius, we just need to multiply the year time of the ‘new galaxy-atom’ for 100.000 times of expansion, and the galaxy should be approximately 100.000 light year of radius.

The same happens in the atom, even if physicists do not understand as they do NOT use variable time clocks, DO NOT relate time clocks to space curvature and attractive power.

But we do have all the data. So in the atomic nucleus, the clock speed slows down ≈ the attractive power diminishes ≈ the curvature diminishes ≈ as the radius of the strong force grows to the radius (clock-curvature-speed-angular momentum) of the Electron. And again we can do similar calculus: the electron of the Bohr radius has a mean speed of 3.000 kms, which multiplied by the fine structure constant gives us the c-speed, or space- time speed of the proton-black hole vortex radius, which is 100 times stronger than the electronic force – again the same relationships in proportions and decametric scales, which will be treated with more rigor in the 4th line).

So back to the galaxy that should stop its expansive phase when the clock goes down to a year orbital sun and 100.000 light year diameter. Well, thus experimental evidence confirms this process? As it happens 100.000 years light is the diameter of the galaxy.

This also means that the meaningful nucleus of the galaxy should be around a π light year or parsec, even if the ‘quark zone’ – or true central black hole is even smaller, but we must remember the quarks are surrounded of a cloud of ‘negative pions’, ‘massive particles, equivalent to massive stars. It is this the case of the black hole?

As it happens, the central parsec around Sagittarius A* contains thousands of stars. Although most of them are old red main-sequence stars, the Galactic Center is also rich in massive stars. More than 100 OB and Wolf–Rayet stars have been identified there so far. They seem to have all been formed in a single star formation event a few million years ago. The existence of these relatively young stars was a surprise to experts, who expected the tidal forces from the central black hole to prevent their formation. This paradox of youth is even stronger for stars that are on very tight orbits around Sagittarius A*, such as S2 and S0-102.

Now this and many pages of astrophysical studies that we shall pour on the 4th line when dealing with the organic galaxy merely shows the 5D symmetry, the organic structure of the galaxy that follows those ternary symmetries and the clueless nature of our astronomers (-; though I will not pound on them, since actually I do like astronomers much more than nuclear physicists – they do nothing wrong and had anyone taken seriously 5D in my youth when doing a master at Columbia U. I might have chosen to spend my life in the nice Palma Island Chilean mountains or Hawaii volcanoes, looking at the stars (-; But they couldn’t care less for the galactic organism )-;

Anyway the field of 5D fractal, organic cyclical time applied to astrophysics is ginormous not so much in size in space but in information. So we will just consider a few aspects of it. Along the way we shall introduce some fundamental changes in our theories of the Universe based in T.œ both in its ‘strict belief in the limits of the scientific method’, and the consequences of a cyclical time, fractal space and scalar Universe.

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In the graph, the quasar Little-bang, is the same process that the cosmic Little-bang but limited to the inversion of a central black hole, which dies and goes through the same phases the inflation period, is the period of black hole explosion with its gravitational waves that create the underlying structure over which the following epochs will produce as energy cools down the different particles of the galaxy. This is what it is recreated today at CERN, and might provoke the strangelet formation on its ‘initial ages’, which are stable usd lumps that could swallow the Earth.

There is besides the job of straighten up of the errors of physics regarding its space-time symmetries a more general analysis of great beauty, which consists in the translation of the ‘Ages of the Little-bangs’, of any type of scales into the ages of the known-known particles of matter, as the slow down of speeds of time and enlarging of spaces allows the symmetry to break into the positive and negative sides of each ‘plane’ of the Universe.

It is not so different from classic astrophysics, except that is simpler more symmetric, experimentally sound, theoretically meaning and so it makes sense (-;

Now of course we can ad for the pleasure of those clueless astrophysicists crunching numbers the unknown scales of the possible atomic cosmos.

They start ‘faster’ than we do. The little bang of the most likely scale of Galactic matter, explains HOW FROM THE c-faster ok colder, super fast time cycles of the Higgs-top quark-black hole fields, through the ‘creation of ± symmetries of speed, energy, charge, and momentum’, all other forces and particles are born.

The chronology of the Galaxy describes the history and future of the Galaxy according to Little Bang cosmology, the scientific model of how the Galaxy developed by this point of existence, which is a world I itself (;

The big bang though of the atomic cosmos stars its time on the Planck epoch, using the cosmological time parameter of commoving coordinates (never mind what it means, nothing really 🙂

As of 2016, this expansion is estimated to have begun 13.799 ± 0.021billion years ago! – you know how ‘precise’ are the scholars who know nothing but think to know it all – humans after all. Wouldn’t be a bit less ‘obvious’ to say just 13.8? (-: LOL, do remember that the exact minute of creation was precisely estimated last century by a British priest on the A$$-breeders calendar, now running at 5777 – 7 being the magic number of Babel…

It is convenient to divide the evolution of the atomic Galaxy or cosmic string, so far into three phases. They just differ in its reality. In brief, the first age of the cosmic big bang is largely speculative and simply accelerates time to the minimal time possible in physical parameters of the ‘light speed limit’, the so called Planck Units of mass, time (the speed of light crossing the minimal radius of a string-neutrino, etc.)

Fantaphysics. The I never proved age of Cosmic physics.

Before a time classified as a Planck time, 10-43 seconds, all of the four fundamental forces are presumed to have been unified into one force. All matter, energy, space and time are presumed to have exploded outward from the original singularity. Nothing is known of this period. In the era around one Planck time, 10-43 seconds, it is projected by present modeling of the fundamental forces that the gravity force begins to differentiate from the other three forces. This is the first of the spontaneous symmetry breaks, which lead to the four observed types of interactions in the present universe.

Looking backward, the general idea is that back beyond 1 Planck time we can make no meaningful observations within the framework of classical gravitation. One way to approach the formulation of the Planck time is presented by Hsu. One of the characteristics of a black hole is that there is an event horizon beyond which we can obtain no information – scales smaller than that are hidden from the outside world. For a given enclosed mass, this limit is on the order of


where G is the gravitational constant and c is the speed of light. But from the uncertainty principle and the De Broglie wavelength, we can infer that the smallest scale at which we could locate the event horizon would be the Compton wavelength.


Equating L and λ, we obtain a characteristic mass called the Planck mass. Substituting this mass back into one of the length expressions gives the Planck length

which happens to the be length of a neutrino, something physicists have not noticed too much but makes the neutrino the clearest candidate to be the quanta of the gravitomagnetic waves of the underlying structure under light. and the neutrino theory of light, the clearest form in which light is formed, as light travels its minima time frequency across this length is called the Planck time:

Tp=√h/Gc5 =1.35 x 10-43 sec

Which therefore will be in 5d physics the minimal wave length of light, the minimal ‘planckton’. And we will return to that.

Inflationary Period

In classic cosmology, Triggered by the symmetry breaking that separates off the strong force, models suggest an extraordinary inflationary phase in the era 10-36 seconds to 10-32 seconds. More expansion is presumed to have occurred in this instant than in the entire period ( 14 billion years?) since.

The inflationary epoch may have expanded the universe by 1020 or 1030 in this incredibly brief time. The inflationary hypothesis offers a way to deal with the horizon problem and the flatness problem of cosmological models.

Screen Shot 2016-04-08 at 20.49.55Lemonick and Nash in a popular article for Time describe inflation as an “amendment to the original Big Bang” as follows: “when the universe was less than a billionth of a billionth of a billionth of a second old, it briefly went through a period of superchanged expansion, ballooning from the size of a proton to the size of a galaxy (and thus expanding at many, many times the speed of light). Then the expansion slowed to a much more stately pace. Improbable as the theory sounds, it has held up in every observation astronomers have managed to make.”

Which is none, zero, nill, zip’. Nobody has observed the grapefruit, let alone the Planck Mass, LOL. The problem of course was that to make so big the Universe, and connect al its parts, they needed this concept and so they fitted in.

So what this inflation means in 5D cosmology? Merely the expansion of the black hole ‘neutrino and gravitational wave’ over which light will be imprinted in a second phase.

Of this the Grand Unification Theory (GUT) – the final unification that has been called a “super grand unification theory”, and becoming more popular is the designation “theory of everything” (TOE) says very little. Since physicists “theories of everything” are separated by two great leaps beyond the experiments we could ever hope to do on the Earth.

In that first phase, the very earliest atom-cosmos was so cold and perfectly ordered that its time clocks with no entropy could turn at an amazing faster than c speed of 1000 z in a present ‘liquid wave’ of absolute no friction.

But of course, ‘lineal entropy physicists’ which become surprised every time they find some cold working non entropic reality (which we have been predicting for 3 decades – the last one the quark gluon perfect liquid, which they still call ‘plasma’ 🙂 take of a hot, energetic substance.

Hot is of course meaningless outside the ENTROPIC GAS-molecular state where temperature is a meaningful parameter.

Never mind. According to prevailing scientific theories, at this time no matter particles existed (hence some divine creationism would act soon 😉 perfect explanation for the time speed and inflaton of those first moments, you know God is absolutely powerful.

Now in this theories the distinct forces we see around us today were joined in one unified force. Space-time itself expanded during an inflationary epoch due to the immensity of the energies involved. Gradually the immense energies cooled – still to a temperature inconceivably hot compared to any we see around us now, but sufficiently to allow forces to gradually undergo symmetry breaking, a kind of repeated condensation from one status quo to another, leading finally to the separation of the strong force from the electroweak force and the first particles.

This in the parlance of abstract physics. In reality, it was of course all the way around. The ‘death’ destroyed the perfect cold order of the super-quark-gluon liquid vortex of the hyper-black hole of super top quarks, and the hyper luminal rotation produced through the Kerr axis tachyons at superluminal speed, which expanded the Universe…

But all that is meaningless, so we just will ignore the whole mysterious things and not fill another 20 or 30 questions never answered about the cosmic big-bang (inflation formation of galaxies, isotropies not found at large scale, etc. etc.) as the little galactic big-bang shows no problems of any kind, the back ground radiation meaning simply the galactic background of neutrinos and light produced by the ‘top quark star’ little bang.


Now, all this said we can after being the devil’s advocate against the big-bang, if any believer is still reading, which i doubt it, and consider that perhaps, indeed, there is a higher scale beyond galaxies, which do respond to the big-bang cosmology and forms a larger scale of physical systems, obeying at a higher speed of space and denser speed of angular momentum in its black hole vortices so how it will look the whole? As its parts in a fractal Universe that repeats its games of existence.



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