Any axiomatizable theory is either incomplete or inconsistent
VERN BENDER
If something is working, it didn’t happen accidentally.
Randomness can’t even build a bobsled. Ditto for natural selection.
The mathematical code to operate the universe is embedded into the fundamental level of physics. It kicked in when the big bang went off. The coded information then moves to the quantum level of physics to be organized snd distributed. The product of this information then transitions to the classic level of physics. This involves the birthing of reality as we know it.
Human invention and discovery always run out of talent in the long run. No matter how many problems get solved, more unsolved problems wait ahead. The objective of known thought is to grow the knowledge base. The universe is a result of applied mathematics. However, there are many logical-mathematical statements that we assume to be accurate but can’t be proven. Many mathematical factual statements can’t be backed up by evidence. Any adequately axiomatizable theory is either incomplete or inconsistent. All matter is made up of particles, which have properties such as charge and spin, but these properties are purely mathematical.
The triangle is the symbol that underlies all of the universe’s geometry. All things are triune, with binary interactives.
The mathematical universe hypothesis implies that we live in a relational reality. The properties of the world around us stem not from the properties of its ultimate building blocks but the relations between these building blocks. Different things in different arrangements have other properties. At each level in a hierarchy, the way items are arranged causes vast differences—quarks into nucleons, nucleons, and electrons into atoms, molecules into cells, and cells into living entities. You have to know how to arrange things to develop a functional product.
Every atom has an electron(s) with a charge and a spin. The spin can be up or down. These electron properties make it a tiny magnet. An electron with a spin-up can be thought of as a magnet. An unequal number of spin-up and spin-down electrons are needed to be magnetic.
FIELDS: A field is a mathematical entity that exists throughout space and time. A classical field is a function that has a numerical value at each point in spacetime. A quantum field comes about when it quantizes a classical field. It becomes an operator-valued function at each point in spacetime instead of a numerical value field.
PARTICLES: A particle is an excited state of a field. What this means is (roughly) that a particular system may be in a vacuum state (0 particles) or various excited states of the field (1 or more particles). The field operators can be used to create or destroy the excited state of a particle at particular points in spacetime. The particle(s) associated with that field is called “quantum (singular) (plural quanta).” The field is the fundamental entity. The fields exist everywhere, and the particles associated with them are arbitrarily created or destroyed by the field operators whenever needed or even at random (by “quantum fluctuations”).
Fundamental properties of a quantum field are its mass, spin, and which symmetries it obeys. The particles associated with a particular field have the same mass and spin as the field and its charges. The particles are limited to what is allowed by the field’s symmetries. Some properties of particles, such as energy and momentum, are independent of their associated fields. The properties of a particle determine all of its possible actions and interactions. A particle’s property, known as its mass, determines the strength of its interactions through gravitational force. A particle’s property, known as its electric charge, determines its actions and interactions through the electromagnetic field. An up quark may come in 3 possible colors meaning that the quarks must interact by the strong nuclear force and gluons as the intermediate particles. A gauge (calibrating) field has to exist, and the gluon field, which makes it possible. The properties of some particles carry information. All information held by ordinary matter is encoded in the type of the particle along with their positions or momentum and spins.
If something is working, it didn’t happen accidentally.
Randomness can’t even build a bobsled. Ditto for natural selection.