Quantum physics underlies the working of atoms, as directed by the fundamental level of physics, chemistry, and biology.
The fundamental level of physics directs the formation of the particles and the forces.
The quantum level then produces all of it upon receiving the instructions.
The fundamental level of physics assesses the possibilities before issuing constructor directions to the quantum level. It dictates transformations and assigns tasks to be accomplished at the quantum level. Before that, it organizes the quantum functions. The fundamental level stores information on the quantum level in a quantum information processing system. A constructor can perform a task. Construction tasks are the first cause of the laws of nature. A set of an ordered pair of states would appear in a flash, conclude, and go away. This conclusion immediately moves to the quantum information storage system.
The fundamental level of physics contains the source code for the universe. The Event Originator wrote the laws of physics in a binary code of zeros and ones, with a triune interface.
This code for the universe resulted in triune formulation with binary inter-actives—chunks of bit information, ones, and zeros. Atoms and electrons are bits. Three are one; one is three; everything else is two.
Examples of binary inter-actives are decoherence and probability, relativity and quantum mechanics, entropy, and superposition.
The laws of physics are unchangeable, and our understanding of these laws is always a work in process. These binary levels of physics handle transformations in the same manner. Causations can’t be an inference from evidence and observation because the evidence isn’t there once the effect has arrived. For a construction task to happen, an input state must beget a throughput event. Sometimes jobs are stand-alone, and sometimes the jobs are accomplished in a network.
In chemistry, there is no distinction between catalysts, synthesis, or other
constructors.
Considering only testable explanations of physical phenomena is too restrictive, resulting in stand-alone conclusions.
This results in connecting with other physical states vague and arbitrary. Quantum decoherence is just a coarse-grained approximation of the quantum state. Binary information moves in and out and back and forth.
Sub-atomic particles swap information when they interact. Information is gathered and discharged, ongoing. Information is at the root of everything.
Digital quantum information is quantified, generated, stored, and communicated on demand. Entropy quantifies the amount of uncertainty involved within a random variable.
The fundamental level of physics contains the source code for the universe. The Event Originator wrote the laws of physics in a binary code of zeros and ones, with a triune interface.