The visible matter in our universe is uncommon. Everything is a pattern. Information drives the result. A cause produces every change in the universe.
A significant fundamental change in physics and cosmology is at hand.
The visual material of the universe is baryonic matter. It is composed of protons, neutrons, and electrons. Only a tiny proportion of the dark matter in the universe is likely to be baryonic. If all the dark matter in the universe were baryonic, there would be much less deuterium. The universe is speeding up, fueled by a dark energy field with long-range repulsive effects.
Dark matter is the invisible glue that makes up the bulk of the universe’s contents. We can only detect it from its gravitational effects. We can deduce dark matter only through gravitational lensing, which detects shifts in light produced by distant celestial objects. Dark matter particles carry a small electrical charge, but the amount is too small to see. They formed galaxies inside massive halos of dark matter. So, finding a galaxy lacking the invisible stuff is a rarity.
All visual objects are made up of atoms that have interacting subatomic particles. They have both mass and volume. The three ordinary states of mass are solid, liquid, and gas. Other conditions are possible, e.g., plasma, fermionic condensates, Bose-Einstein condensates, and quark-gluon plasma. Their quantum level operations govern the properties of subatomic particles.
Quantum-level entities do not have any free-standing size or volume. The subatomic quantum properties originate from the fundamental level of physics that becomes infused into the classic level of physics. The exclusion principle keeps the subatomics in their places. Remember, matter describes a physical substance, while mass is a quantitative property of matter. You have rest mass, inertial mass, relativistic mass, and mass-energy. There are other forms of mass in-between these that are “point of view” dependent. The matter has anti-matter. A mass has no anti-mass. The matter has both wavelike and particle-like properties.
All things are triune, with binary inter-actives.
Dark matter is non-baryonic. We have no clue about its atomic makeup. The birth of our universe may have come from a black hole. Dark energy became dominant over gravity when the universe was around 7–10 billion years old. This has caused the universe to expand at a high-speed rate.
The electromagnetic force does not affect dark matter; only new dark energy carried by a dark photon could produce repulsion. Axions may make up 100% of the dark matter in our universe, or zero percent.
Dark matter particles do not absorb, reflect, or emit light, so we cannot observe them via electromagnetic radiation. Dark matter accounts for the unexplained motions of stars within galaxies. Dark matter slows down the universe’s expansion, while dark energy speeds it up. Dark energy is a repulsive force. It drives the universe’s ever-accelerating expansion.
Neutrons are regular matter particles with a limited lifetime. After around 14.5 minutes, a neutron unmoored from an atom will decay into a proton, an electron, and a neutrino. The particle zoo goes on.
The three levels of physics: Fundamental, Quantum, and Classic.
The fundamental level is the constructor of information.
ALL THINGS ARE TRIUNE, WITH BINARY INTERACTIVES. (one is three, three is one, everything else is two).