On the other hand the big-bang can be falsified rationally and we shall do from multiple perspectives and ad hoc fit-in data. Thus the galatom is the only alternative model to the big bang that fits the same data when we change from a newtonian spacetime to a relational spacetime. Einstein-Walker model departs from the simplification of galaxies as atoms, etc. We can use the Schrodinger equation to model the inner structure of the galaxy (Wheeler). The galaxy has been found to have above and below a 'p-orbital' cloud of ¥-rays stars can be modeled as photons and the galaxy shows also a 'drum-beat' warping similar to that of a p-orbital. Is the galaxy an atom of a hyper-universe? As we explore this possibility the number of parallelisms grow: strong forces are cyclical, informative, similar to gravitation inside the galatom, ¥-forces are expansive similar to dark energy. We introduce in the study of the Universe 5D scales of spacetime and its ∆±¡ metric that accelerates the cycles of all systems, the smaller they become: Si x Tƒ= C: We find then a surprising symmetry between the atom and the galaxy, as both have the same value in terms of scalar spacetime. In the cosmological scale it means the Universe was never created and we can't perceive it beyond its ◊±4 scale. The electron nebulae are photars trapped in the protohole gravitational well. The strongravitational form also scales, with its cyclical 1-coupling that lets nothing escape its attractive trans-form-ative power. Gluons are equivalent to the mesons that feed with its dying dual particle-antiparticle events a top quark star. They act, as g¥ant repulsive waves between galatoms, seen as expanding space. The neutrino background has the mass-curvature of the vacuum energy space-cosmological constant. The strange negative quark is in a ratio of mass to the positive top quark, component of the central black holes of galatoms, which are frozen top quark stars, in the same proportion than the electron mass is to the proton mass. So a proton and an electron form an atom and a protohole made of top positive quarks and a strangelectron, its halo made of negative strangelets form a galaxy. The galatom s¡metry is the most important finding since Hubble's realization nebulae are galaxies, as it turns out galaxies are galatoms of the higher hyper-Universe, which is immortal in time, infinite in space, uncertain in ◊§calar planes.
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