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8 Species


6th isomorphism. Creative diversification: 1,2,3

Galaxies can be treated as ‘male-female’ according to its different ‘rotational spin, as electrons do. Its attractive or repulsive bonding seems to be related to that spin. Its ternary differentiation in space coincides with its 3 ages in time, with ∆-1 irregular energetic planar ones, which mature with black hole formation into steady state spirals, the longest living and 1/2 of them, and then grow further in form into the globular species, but cannibals survive by growing through ∑+1 social evolution.

Species of galaxies in space are in fact phases of galaxies in time. So we observe in the classification of galaxies a classic confusion of science between a time-event (ages of galaxies) with a space event (species of galaxies):


III Informative, Age and death: Max.It: The age of Galaxies. 


-From left to right: A galaxy with a flat star body and a central brain, occupied by Worm Holes with a hyper-developed dimension of informative height, perpendicular to the galactic body.

-Different biological curves of stars reproduction.

– A region rich in atomic Entropy where those stars are born.

-A galaxy with an organic form that remembers a ray fish

– A giant galaxy, which re=produces a seminal jet of matter, giving birth to a younger galaxy.

The 3rd age of the Galaxy started once galaxies, with central, informative worm holes and star bodies that feed on interstellar gas socialized in galactic networks with the 3 canonical topologies: Lineal walls, spiraled systems and cyclical, globular forms and disks.

Those 3 galactic networks structure a mature Galaxy that shows in computerized models a surprising similarity with the discreet networks of a living tissue.

As the Galaxy gets older, if it is a cellular structure it will warp further, creating a hyper worm hole of Max.Informative, Planck’s density in its hypothetical center that should become its DNA-like center controlling and feeding in a hyper-vortex of galaxies.

We could consider 2 cellular hypotheses:

∆+1: The Galaxy evolves socially as it becomes a cell of a hyper-Galaxy from a bigger ∆-scale…

∆-1: Each cell is an island Galaxy in itself that will finally collapse around its informative center, as stars do in elliptical galaxies, feeding its Hyper-Worm Hole in the Little-crunch. Then the Galaxy will die in a new Little-bang will initiate a new cycle. In this case the cell-Galaxy is self-similar to a bacteria, in as much as it is a single cell organism.

We seem to be moving towards the steady state, longer period of existence either because we are atoms-like of a huge Galaxy or because we are in a 2nd age that will latter implode back. Because the degree of curvature of the Galaxy is given by lambda which is near equilibrium, counting the implosive action of galaxies, and the expanding intergalactic space, both hypothesis (a gas-like huge Galaxy or a cell-like system are possible.

The Huge Galaxy will reduce those ages to galactic phases.

Yet if cells are atoms of a huge Galaxy none of those ages will happen, as galaxies would be the last ‘cosmic structure’, which we can perceive with certain precision.

In Einstein’s general equations of space-time, the cosmological constant that measures the Entropy of vacuum: l defines also the warping of the Galaxy, which can acquire our familiar 3 topological forms: a simple plane,-sphere proper of a young age; a cyclical, steady state toroid or a convex, informative form (its Little crunch, final state). Now l is positive, and the Galaxy seems to be plane but so close to zero that the hypothesis of a stationary Galaxy takes force. Yet again we cannot measure with enough time latitude to know if it changes and it will diminish in the future it will become negative, inverting the geometry of the Galaxy and warping it, into a final Little crunch.

Since ‘l’ can be considered the length of the tachyon string or minimal action of the gravitational Galaxy in terms of those minimal fractal parts, the thesis of a constant lambda and steady state huge Galaxy is reinforced by self-similarity with the constancy of ‘h’ in the quantum world.

In such case, there should be only quasar-like Little bang of galaxies, short of cosmic beta decays and the 3 ages or solutions of Einstein’s equation should be applied only to galactic space and the quasar cycle, initiated by a gravitational, inflationary Little-bang of dark Entropy, followed by a Little-bang of electromagnetic radiation, which quiets down, and finally implodes into gluon creation of quark matter.

Such humbler, more realistic analysis of the origin of the observables of astrophysics will reduce all relativistic analysis of the 3 ages of space-time to processes within the galaxy, born as the explosion of a hyper-black hole of top quarks, latter exploded into a fractal Little-bang of beta decays. We would then be in the 3rd age of such galaxy, organized already by a central black holes. Since the space-time of our galaxy is an implosive vortex of information.

Indeed, we are in a Gödel Island-Galaxy, in a vortex of information called the Milky Away. Then the Energetic Galaxy should be considered irrelevant to us, only applicable to intergalactic, expanding space, because we would exist in the 3rd informative solution, the vortex of the galaxy and that is why the arrow of time in humanity is an informative arrow, not an energetic one. And that is why the sciences of information, of biology not those of Entropy should dominate our analysis of scientific phenomena – even if the awesome Entropy of physical beings might impress the simplex mind.

Recap. We can order the evolution of the whole Galaxy as any other organism in time through 3 ages each one divided in sub-ages: the young, energetic Little-bang, probable death of other Galaxy, the steady, reproductive state in which it seems to be now and the Little-crunch that will happen as the initial momentum of the gravitational strings slow down to under c-speed. Then we shall enter into the Gödel’s Galaxy in which some regions call galaxies in which we inhabit exist. In those regions information dominates Entropy.



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