• THE THEORY OF EVERYTHING IS: “ALL THINGS ARE TRIUNE WITH BINARY INTERACTIVES.”
  • THE PHYSICS TRINITY OF OF THE EQUATION IS:
  • THE 1ST LEVELOF PHYSICS begets the 2nd & 3rd levels of physics.
  • THE 1ST LEVEL IS THE FUNDAMENTAL LEVEL.
  • THE 2ND LEVEL OF PHYSICS IS THE EMERGENT QUANTUM LEVEL.
  • THE 3RD LEVEL OF PHYSICS IS ALSO EMERGENT, IT IS THE CLASSICAL LEVEL.
  • Just as classical physics emerges from quantum physics, there is a first-level from which quantum physics arises.
  • There are three levels of physics:
  • The 3rd level of physics is CLASSICAL PHYSICS, which emerges from the 2nd level of physics. (quantum mechanics). The first level of physics lies below the quantum level. Currently, we mostly understand the 3rd level of physics. We are trying to understand the 2nd level. (quantum mechanics).
  • The 1st level of physics is the fundamental one.
  • We will outline the 1st level of physics soon.
  • Level one is fundamental, levels two and three are emergent.
  • ALL THINGS ARE TRIUNE, WITH BINARY INTERACTIVES.
  • PHYSICS, ALSO IS TRIUNE.  
  • TRIUNE STARTS WITH THE TRINITY.
  • Triune starts with the Trinity’s three in one.
theory of everything © Science Photo library
  • In quantum mechanics, events produced by the interaction of subatomic particles happen in jumps (yes, quantum leaps), with probabilistic rather than definite outcomes. In general relativity, events are continuous and deterministic. 
  • Deconstructing spookiness: Emergent Quantum Mechanics explains the quantum world - Research Outreach
  • Dark Energy is the mystery is that no one still knows what dark energy is (or if it even exists). It accounts for +/- 70% of the known universe. Dark energy is a property of space. Dark matter slows down the expansion of the universe, while dark energy speeds it up. Dark matter works like an attractive force, a kind of cosmic cement that holds our universe together.
  • The sky is dark at night partly because the distant cosmic background radiation gets red-shifted away from the visible spectrum because of the expansion of the universe.
  • The four known fundamental forces of nature (gravity, electromagnetism, strong nuclear, and weak nuclear) are all relatively simple. But, it is almost always impossible to directly predict the behavior of complex systems.
  • Complex systems are characterized by specific time-dependent interactions among their many constituents. Examples of complex systems are Earth’s global climate, organisms, the human brain. Physics can’t explain the growth of complexity.
  • 4 Mind-Bending Ways Quantum Physics Challenges Our Reality - Tech and Science Post
  • The Matter-Antimatter Asymmetry violation. Antimatter should have annihilated all the matter in the universe after the big bang, but it did not.
  • When the particles annihilate each other, only energy remains. Why did matter win? Some of the leftover particles produced our mass.
  • The Violation of Symmetry between Matter and Antimatter - ppt download
  • Matter and anti-matter have opposite charges and spin. When they meet up, mutually assured destruction happens. Why anti-matter is very rare in the universe today is anybody’s guess. Antimatter particles share the same mass as their matter counterparts, but qualities such as electric charge are opposite.
  • Neutrinos are nearly massless particles that rarely interact with matter. They have no charge.