**Authors:** Luis sancho

We introduce 5 D physics with a brief study of its larger scale, Cosmology, which defines a fractal immortal self-reproductive Universe in perpetual S=T âˆž 0-sum balances between the arrow of information (Spatial form), represented in cosmology by imploding galaxies, one of which we live within, evolving our information towards its center, and the arrow of entropy (Temporal motion), represented by the expansion of space between galaxies, the only parameter of space-time physicists so far consider to construct their entropy-only big-bang theory of the Universe. This is a general paper on Physics with emphasis on Cosmology and Philosophy of science, introducing its main subdisciplines, according to scale (Quantum physics & particles: âˆ†-1; Chemistry & Thermodynamics: âˆ†Âº-Mechanics & Astro-physics: âˆ†+1 cosmological scale). The paer won't be finished till reaching 400 pages, (the limit in spacetime for Academia.edu to charge a paper), in a subject we can barely as all other stiences outline in its first principles... Our aim as in all papers is to introduce 5D physics and connect and correct classic physics to show an overview of the future of the discipline when/if humans, certainly AI that will require 5D to understand its own conciousness accept the change of paradigm. So it would be good enough, to give a feeling of the discipline. We search for 'grata brevitas' and emphasize the non-mathematical aspects of 5D science, as they are completely new to Physics, wrongly reduced to properties of matter that can be described with numbers. Even then we would have only scratched the surface of a discipline which occupies thousands of pages of my notebooks. So time permitted we will run latter more specific and formal papers on mathematical physics, by scale, connecting all its main equations to the function of existÂ¡ence (5D metrics) and show how the key principles of physics (conservation, symmetries, groups, relativity of motion, quantum probability vs. thermodynamic statistics; Lagrangians, Hamiltonians, least time principles, states of matter, geological cycles; families of mass, etc.) are a direct consequence of 5D metrics, the scalar, cyclical properties of space and time. As we try to imitate the Universe - as all fractal parts of it should - the complexity of the posts will increase. Also because I don't know how much time can i dedicate to those posts for future researchers, we need to start from first principles. So we first we outline under the Principle of Correspondence the 5 Principles and equations in which Einstein based its 4D model (Relativity, c-speed constancy, Equivalence, Relational Space-time, E=Mc2), showing how they correspond to 5D, which expands its understanding, or in the case of c-speed to the limit of a single galactic plane of light space-time). Once this due homage to the previous paradigm is done, we start the text, considering the metric equations of the scalar fractal Universe, and its 5 Dimensional motion of space-time (ab. Dimotions). From them we obtain the 3 conserved quantities of physics, and its fundamental 3 scales (ab. âˆ†), the âˆ†-1 quantum, electromagnetic, âˆ†0 human thermodynamic and âˆ†+1 galactic gravitational scales. We then expand Non-Euclidean geometry and logic to fit the new structure of scalar space and cyclic time. We redefine the principle of relativity as the fundamental symmetry of the Universe between space=still form and time=motion. So once we have the theoretical basis and formal languages to study any fractal organic system of the scalar Universe we apply it to the cosmos, studying the scalar big-bangs taking place in all its scales, from beta decays to quasars. We assess the most likely scale of the cosmic big-bang and concentrate into the analysis of the galaxy as a fractal organic system. We show how to properly unify mathematically with 5D metric, charges and masses, resolving the hierarchy problem and consider an organic unification of its 5 forces as expressions of the 5 Dimensional motions of the galaxy. We show the ternary scalar symmetries between quantum particles, cosmic bodies and galaxies both in scale and, ternary topologies, resolving the scalar symmetric whys of the 3 families of masses. And finally we model black holes as quark stars of the heavier top quark decuplet.

**Comments:** 168 Pages.

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[v1] 2018-12-11 02:30:47

[v2] 2019-08-11 13:02:35

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