Law of the Universe

Beyond the Standard Model
Simulated Large Hadron Collider CMS particle detector data depicting a Higgs boson produced by colliding protons decaying into hadron jets and electrons
Standard Model
Evidence Hierarchy problem Dark matter Dark energy Quintessence Phantom energy Dark radiation Dark photon Cosmological constant problem Strong CP problem Neutrino oscillation
Theories Brans–Dicke theory Cosmic censorship hypothesis Fifth force F-theory Theory of everything Unified field theory Grand Unified Theory Technicolor Kaluza–Klein theory Topological quantum field theory Local quantum field theory Liouville field theory 6D (2,0) superconformal field theory Noncommutative quantum field theory Quantum cosmology Brane cosmology String theory Superstring theory M-theory Mathematical universe hypothesis Mirror matter Randall–Sundrum model Yang–Mills theory N = 4 supersymmetric Yang–Mills theory Twistor string theory Dark fluid Doubly special relativity de Sitter invariant special relativity Causal fermion systems Black hole thermodynamics Unparticle physics Graviphoton Graviscalar Graviton Gravitino Massive gravity Gauge gravitation theory Gauge theory gravity CPT symmetry
Supersymmetry MSSM NMSSM Superstring theory M-theory Supergravity Supersymmetry breaking Extra dimensions Large extra dimensions
Quantum gravity False vacuum String theory Spin foam Quantum foam Quantum geometry Loop quantum gravity Quantum cosmology Loop quantum cosmology Causal dynamical triangulation Causal fermion systems Causal sets Canonical quantum gravity Semiclassical gravity Superfluid vacuum theory
Experiments ANNIE Gran Sasso INO LHC SNO Super-K Tevatron NOvA
v t e

In physics, the Law of the Universe is a theoretical equation limit^[1] which extremely simplifies the ingredients of the mechanics involved in the first moments of the Big Bang. Today's research produced models and all of them point to accorp everything in one single Theory (GUT).^[2]

History[edit]

The search of a law for the universe^[3] has fascinated humanity since the beginning, but during the phylosophical movement called Illuminism the people was sure that knowing the rules of the universe and the start of the time, it would have been easy to calculate every moment of history, but today we know this is impossible for the Indeterminacy principle asserts a fundamental limit to the precision with which certain pairs of physical properties of a particle can be known.^[4] This means that there's a problem at the base of the assertion, because we cannot even know contemporary the position and the speed of a particle, therefore operate any stochastic prevision.

Discoveries[edit]

The formulation of a law has always been a slow and thoughtful process. Scientists always lived their discoveries as difficult moments of proves. Sometimes they did not take into account proprietary formulas and became aware of their discovery only after years. Not always the society was able to accept their messages and sometimes they were threatened with torture like Galileo Galilei or even murdered like the Pythagoreans^[5].

Fisico	Universal Law
Galileo Galilei	${\displaystyle Motum}$
Isaac Newton	${\displaystyle Force=ma}$
Gottfried Wilhelm Leibniz	${\displaystyle VisViva=mv^{2}}$
Kinetic Energy	${\displaystyle E={\frac {1}{2}}mv^{2}}$
Conservation - Johann and Daniel Bernoulli	${\displaystyle {\frac {1}{2}}dv^{2}+Pressure=Constant}$
Conservation of Energy - Rudolf Clausius	${\displaystyle \bigtriangleup U=Q-W}$
Albert Einstein	${\displaystyle E=mc^{2}}$
?	${\displaystyle G.U.T.}$

Scientific evidence[edit]

Though Reality seems to present an incredible diversity, the contemporary Physics believes to have reached the fundamental bricks of everything, for example the quarks. To understand, a quantization of the Reality itself has been performed, but because such quantization is today producing an increasingly amount of numbers, the points of view (Hilbert space) increase too. If the Ockam's Razor^[6] is valid then a more simple representation of the quantum mechanics is possible.

Starting from the costatation that all states of matter tend to similar behaviours at high temperatures, the experimentation is studying matter creating distinct events and studying their energy vortex in colliders; but the more realistic representation of the photon we have still is the movement of orthogonal waves for its physics is still bound to the wave rather than the corpuscolar entity^[7]. In a pure perspective the intrinsec movement of a particle in the space is admittable only accepting the existence of absolute empty^[8] in events production, creating conditions similar to a black hole or the first instants of the Big Bang, in order to understand the event formation mechanism and find deeper meanings.

Research[edit]

In order to study fundamental matter formation we have to take into account that:

1. Einstein's General Relativity equation ${\displaystyle \lambda _{pl}={\sqrt {G\hbar /c^{3}}}\sim 10^{-}3cm}$ is valid only till the Planck scale^[9]
2. light speed is always constant so the photon can be viewed as unitary space per time and Spacetime, rather than being a grid in the Universe, is a property of the matter itself
3. the Planck time^[10] creates volume and results in actual matter as combination of energy forms. The granularity is maintained in huge stars and, excluding black holes^[11], this guarantees stability at all states of matter^[12].

The conditions that have to be reached in order to assist at events formation are the most extreme and need energy sufficient to debind the matter or cause atomic nuclei fusion, but a TOP-DOWN approach is also possible. The proves about the Big Bang theory, in fact, can be virtually mathematized^[13] crashing the Symmetry to the center of the Singularity from the poles, whose limit existence is verified through the diversity of the reality itself. Once reached the law will be able to explain phenomenons from infinite energies and infinitesimal ones, that is all the Universe.

See also[edit]

• Grand Unified Theory
• Physics beyond the Standard Model
• Gravitational singularity
• Hilbert
• Orbital angular momentum of light
• Black hole

References[edit]

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