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The three levels of physics: Fundamental, Quantum, and Classic

  • A significant fundamental change in physics and cosmology is at hand.
  • Information is the starting point of physics. Everything that emerges comes from the fundamental level of physics. The basic level is the constructor of information. The first cause lives here. A reason produces every change in the universe
  • The three levels of physics are Fundamental, Quantum, and Classic.
  • Information is observer-dependent—bits of information bounce around, where, and when, depending upon who is looking at it. The universe never loses information. Some of the universe’s information lives beyond our math and geometry abilities.
  • The database of information each time unscrambles the facts as needed until the correct, actionable amount is ready to go. A can-do and ca n’t-do evaluation comes first. Gravity opens the door on the fundamental floor for particle formation. The basic level of information begets the required quantum and classic seed information. The code for creation originates at the primary level as well.
  • The laws of physics give birth to particles on the fundamental platform (at the informational level) of physics. From there, they move to the quantum level. Finally, they appear on the classic level, and reality is born. Constant fluctuations in energy can spontaneously create mass out of thin air or out of nothing by interacting with select particle fields.
  • The Constructor theory & the three levels of physics are fundamental, quantum, and classic combined.
  • ALL THINGS ARE TRIUNE, WITH BINARY INTERACTIVES. (One is three, three is one, everything else is two).
  • The constructor theory puts counterfactuals at the very foundation of physics.
  • Information is the starting point for physics.
  • Events can’t happen without cause and effect. They travel instantly because of the quantum entanglement of binary sets of particles. The principles of causality and locality explain the Standard Model of Particle Physics and General Relativity Structure.
  • Our view of understanding will switch to one of dialectical inclusiveness. Dialectics and quantum physics are both unintuitive.
  • Dialectics can oppose formal logic and common sense.
  • A dialectics approach to cosmology and physics leads to new positive knowledge of reality at a macroscopic level. There can be several effects and causes in one event.
  • An event has probabilities of many alternate events. These processes are initially time-symmetric but move towards time-symmetric. It does not predetermine consequent events. The effects of events produce ongoing possibilities. Probabilistic events can determine future events.
  • The three levels of physics in the universe are:
  • 1st: The fundamental (creation) level of physics.
  • 2nd: The quantum level of physics.
  • Third, The classical level of physics studies the results of energy and matter interactions and how the five forces of nature interact with them. Classical mechanics consists of the motion of material objects. Thermodynamics (the theory of heat, temperature, and particles). Electromagnetism. Relativity.
  • The quantum information/constructor theory. Constructor theory grew out of work in quantum information theory.
  • Quantum Information Theory states that something is missing in the usual approach to physics. The standard laws of physics, such as quantum theory, general relativity, and even Newton’s laws, address only the trajectories of objects and what happens to them, given some initial conditions. Constructor Theory is a fresh approach to defining fundamental rules in physics. Constructor theory grew out of work in quantum information theory.
  • Something is missing in the usual approach to physics.
  • The constructor theory includes quantum gravity; it causes entanglement, which is gravity. Its mediator is quantum. It mediates via interoperability.
  • Quantum counterfactuals play a much more crucial role within the quantum arena than in the classic arena. Quantum and classical information are two aspects of the same set of information. The fundamental level of instructions issued to the quantum level is usually just a pass-through to the classic level.
  • Note: quantum information has two additional counterfactual properties. The two information variables are position and velocity; they can’t be copied simultaneously. Second, either variable transformation can be reversed. It builds logical operations from the bottom up. The universal constructor machine lives on the fundamental level. It issues tasks and changes bottom-up. It produces living systems with these instructions. DNA is a replicator and contains the instructions for building a cell. The cell reads its instructions, and life goes on.
  • The fundamental level of physics contains the source code for the universe. 
  • There are three levels of physics: fundamental, quantum, and classic. Three is one; one is three; everything else is two.
  • WE ARE A DATA-DRIVEN university.
  • All the information needed to birth and run a universe starts at the fundamental level of physics.
  • Physics moves its coded information from the fundamental level to the quantum level. The quantum level then processes that information and transfers it to the classic level. Every function of physics works in this manner.
  • The design didn’t get put in place by accident or evolution. Genes have developed complex vehicles to reproduce, such as cells and organisms. Genes don’t strive for immortality by copying themselves like strands of DNA, using temporary, protective vehicles to increase for generations. Something previously built DNA design in.
  • The emergence of life can’t happen naturally. The laws of physics do not allow for the transformations needed for biological adaptations. Laws need to be programmed in so that they can operate as laws. A replicator needs an information code built in before it can replicate.
  • The replicator mechanism sorts the tasks from the impossible functions first. It robustly unifies the theories of quantum and classical information.
  • The Quantum Information Theory combines ideas from classical information theory, quantum mechanics, and computer science. A quantum information processing system stores information in the quantum states in a physical system. It bases quantum mechanics on certain postulates. Constructor theory expresses all fundamental scientific theories regarding possible and impossible physical transformations. What it can cause and what it cannot drive to happen. Everything is a binary choice. Information generates and controls the laws of physics. Without information, there are no laws of physics. The Event Originator wrote the code to put the laws of physics in place. No code, no laws. The code to birth a universe and operate that universe was put in place before the launch. Randomness achieving a start-up and taking it operational could never happen. Laws made randomly to be put in place to operate the laws of nature can’t happen. The constructor code is the transformation/computation agent that also replicates. It controls the system operators. They use generic resources and reuse them. Quantum information has a super-information status. In quantum physics, any set of two orthogonal states of a qubit makes up information observable.
  • The code for which physical transformations are possible and impossible and why they are possible is part of the operational coding.
  • There is a theory of information underlying classical and quantum information. All physical transformations are computations. Conservation law’s quantum information drives the operational processes. This directs exact statements of emergent laws (such as the second law of thermodynamics).
  • The Event Originator generated the original cause of our universe from its underlying information. This information gave birth to the universe. The universe is an information-processing machine. Information operates the universe.
  • Physics moves its coded information from the fundamental level to the quantum level. The quantum level then processes that information and transfers it to the classic level. Every function of physics works in this manner.
  • Spacetime arises as an emergent phenomenon from the fundamental level of physics, which seeds the quantum level of physics. Entangled fields spring up within the spacetime boundary. The force of gravity also emerges from the fundamental level of physics. It then moves up to the quantum level, producing linearized quantum gravity. This results in emergent large-scale excitations that merge with the emergent spacetime. It delocalizes during the transition. This is the quantum/gauge duality in action.
  • The fundamental level contains the source code for the universe.
  • 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 forces.
  • The quantum level then produces all the classic levels of physics upon receiving the instructions.
  • The fundamental level stores information for the quantum level of physics in a quantum information processing system. The essential 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. A constructor can perform a task. Construction tasks are the first cause of the laws of nature. A set of ordered pairs of states appear in a flash, conclude, and go away. This conclusion immediately moves to the quantum information storage system.
  • 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 results in a triune formulation with binary inter-actives—chunks of bits of information. Atoms and electrons are bits. Three is one; one is three; everything else is two.
    • HOW TRINITARIAN PHYSICS WORKS
    • The laws of physics give birth to particles on the fundamental physics platform. From there, they move to the quantum level. Finally, they appear on the classic level, and reality is born.
    • THE PROCESS FOR THE CREATION OF A PARTICLE:
    • 1ST: The fundamental level of physics produces the embryonic mix that births a particle. 
    • 2ND: It then moves to the middle level, the quantum mechanical level, where transformations occur, such as the quantization of gravity.
    • 3rd: Upon completion, it moves to the classic physics level, making it onto the stage of reality.
  • Virtual particles are fundamental particles. Quantum mechanics require them. One particle pairs up virtually and then returns to one particle most of the time. The uncertainty of any quantum object or process negates the ability to predict location, energy, or momentum. Virtual particles come in pairs: a particle and an antiparticle. In a flash, they mutually annihilate. A few become heavier particles.
  • Quantum fluctuations drive quantum phase transitions. They are energy fluctuations that are found everywhere.
  • It filled vacuums in space with quantum energy and virtual particles gone in a flash. This quantum vacuum manifests the quantum fields that span the universe.
  • Every elementary particle carries encoded data. Information is the fifth state of matter (solid, liquid, gas, plasma, and code). Embedded, coded information drives the laws of physics. The universe is a physical system that contains and processes information.
  • The universe we live in is information-driven. It simulates reality.
  • Our universe was born from the information file transcribed upon the fundamental physics’ hard drive. The matter in the universe is simply a product of the inscribed information. It triggered the Big Bang. Immediately after the Big Bang, the operational phase started. Our universe was growing up.
  • This transcribed information got us here today.
  • The universe’s exit strategy, of course, is also in place.
  • Each spacetime particle dynamically develops its next state from the current one. It sources the information from the hard drive at the fundamental level.
  • Information is the foundation of the universe. It emanates from the fundamental level of physics. It is the blueprint for reality and contains the operating instructions for this universe from start to finish. Information is slowly changing scientific inquiry. Materialism is just a part of the equation.
  • Information and space are gridlike and discrete. They compose the time matrix of an interwoven network of spacetime particles.
  • Sub-atomic particles swap information when they interact. Information is gathered and discharged, ongoing. Data 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 universe is an information-processing machine.
  • Gravity locality is different because it moves up and down as needed.
  • The electromagnetic and strong and weak nuclear forces all originate from the quantum level of physics. Gravity locality is a moving thing. Gravity locality is a different force because it moves up and down as needed. Gravity curves space. Gravity is a feature of the spacetime medium. The other three forces play out in this spacetime stage. It grew gravity on the quantum level of physics. It transferred the gravity embryo from the fundamental level of physics.
  • All quantized units of gravity (gravitons) operate from sub-millimeter scales to cosmological distances. Gravity starts weak but strengthens to a singularity within a black hole. Gravity influences dark matter as well.
  • The strength of the electric field can change independently. The degrees of freedom are local. Gravity is much weaker than the other three forces. Quantum gravity does not need to respect locality. The number of degrees of freedom for gravity is open-ended.
  • There are spontaneous particle creations and entanglement between states of particles. Also, particles are in a superposition of existence in multiple locations. Entanglement creates connections between distant regions of spacetime. The vacuum of space has various superimposed fields on top of each other. These fields extend throughout space. These fields are constantly oscillating and interacting, causing the vacuum of space. Particles are minor defects in the vacuum’s structure. Spacetime starts without these defects—stretching spacetime creates more of the vacuum substance.
  • The quantized gravity units have infinite terms, so renormalization can’t happen. Gravity is unlimited because it never switches off; it is never-ending. The gravitational field cannot behave like a wave function. The gravitational force has physically unique structures. It moves from the fundamental field through the quantum field to the classical field and back on a never-ending cycle. 
  • Particles roam the quantum realm in droves. They behave collectively. This causes the macroscopic force of gravity. The same is true of photon particles that emit light via a visible collection of particles.
  • All four forces are quantum exchange particles darting from place to place. The graviton is a force-carrying particle that carries the force of gravity. It is a massless spin2 particle. Elementary particles mediate the other three forces: electromagnetism by the photon, the strong interaction by the gluons, and the weak interaction by the W and Z bosons. These three particles combine to produce a graviton particle to hold things together in a flash.
  • Three is one; one is three; everything else is two.
  • Particle mass has three generations. All visible matter comes from the first generation of matter particles. Second- and third-generation particles are unstable and quickly decay into first-generation particles.
  • Randomness lacks a definitive plan or purpose. It also lacks a pattern or predictability.
  • Complexity does not arise from randomness.
  • Examples of binary interactives 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. An input state must beget a throughput event for a construction task. Sometimes, jobs are stand-alone, and sometimes, the jobs are accomplished in a network.
  • There is no distinction between catalysts, synthesis, or other constructors in chemistry.
  • Considering only testable explanations of physical phenomena is too restrictive, resulting in stand-alone conclusions.
  • Quantum decoherence is just a coarse-grained approximation of the quantum state. Binary information moves in and out and back and forth. This results in connecting with other physical conditions that are vague and arbitrary.
  • The entanglement between local information interactions.
  • HOW TRINITARIAN PHYSICS WORKS
  • The laws of physics give birth to particles on the fundamental physics platform. From there, they move to the quantum level. Finally, they appear on the classic status, and reality is born.
  • The first level of physics is the fundamental level. Construction of the universe takes place here, apart from the mechanical dynamic. A binary information system drives it. It runs the numbers, sets up the equations/predictions, and then sets up production—the union of quantum mechanics and general relativity.
    • Facts drive the input/output informational results to the quantum level. Binary information performs the tasks at hand. The system functions as a computer and a copier. It breaks reality into functions. Evaluation of possibilities takes place, and then a transformation occurs. The deciding point is now reached. They set the properties at this point. Probabilistic turns to deterministic. Quantum information is in a superinformation state. The entanglement between local information interactions occurs before separation. Entanglement between quantum systems arises upon particle interactions. There are four entanglement states and two shapes, round or square.
    • The basic unit of quantum information is a quantum version of the classic binary bit that operates within a two-state device. They start with quantum information from the fundamental physics blueprint level. It then moves from the quantum to the traditional level because all things are triune, with binary inter-actives.
    • The conservation of quantum information means that quantum information cannot be duplicated or destroyed. The two theorems of quantum mechanics are the no-cloning theorem and the no-deleting theorem. While in the classical world, data can be copied and deleted.
    • Quantum superposing occurs when two or more quantum states come together, resulting in another valid quantum state. Conversely, we can represent every quantum state as a sum of two or more distinct states. Also, any linear combination of results will be another result.
    • There are connections between entanglement and thermodynamics.
    • A quantum system has repeated interactions between particles that create quantum correlations and entanglements. They then interact with the properties of macroscopic systems.
    • A quantum bipartite system comprises two distinct parts, spatially separating each quantum information system.
    • Quantum spatially separated parties perform local operations and exchange classical communications. Separable states cause these to be still quantum states. They are entangled and separable (or disentangled) states.
    • Quantum entanglement systems differ by function performed.
    • Entanglement-thermodynamic duality produces reversible interactions, mixed-state systems, and mirror images.
    • OUR REALITY IS JUST A SLICE OF THE COMPLETE ILLUSION OUT THERE.
      • Our perception of reality is a subjective, non-material one.
      • There is something real out there that is independent of the observer.
      • Everything is energy, or energy that is transitioning. Mass is never without its active properties. Observer-dependent reality misses much of the picture. The rest of reality lies just beyond our ken. We can only see the beginnings of existence but never a reality in its totality. Yesterday’s truth will give way to tomorrow’s truth.
      • Particles are temporary entities within a wave field, and the laws of waves determine how these temporary entities function. A particle persists long, vibrating on both the quantum and fundamental levels.
      • The continuity spectrum of energy in its quantum and fundamental states lasts as long as its mass does.
      • The distinction between past, present, and future is only a thought away in physics.
      • Mass is a captive form of energy. They composed the laws of nature in triplicate. There are three copies of all matter particles, each heavier than the last but otherwise identical—these three generations of matter increase in mass. The higher-generation particles decay into lower-generation particles. We only see the first-generation particles (electrons and up/down quarks). They compose the laws of nature in triplicate. Three generations of each type of matter particle exist. The spread in the masses is vast.
      • The physical transformations occur at the quantum level. The fundamental group of physics moves the randomness of the quantum level to the deterministic classic level of physics. It changes the mode of information from random to deterministic. The transformations are input-output in pairs of attributes. It constructs the building blocks of reality in this manner.
      • The only solid evidence that could support or distinguish between theories of the matter particles’ masses would discover the various exotic particles each predicts. The Large Hadron Collider has found none.
      • The standard model cannot explain some of the deepest mysteries in modern physics, including dark matter and the universe’s imbalance of matter and antimatter.
      • The laws of nature treat electrons and their heavier cousins, muons, identically, except for slight differences because of their distinct masses.
      • Never-before-seen particles come from the fundamental grid.
      • The observable order of causation is not self-explanatory. The fundamental physics grid contains the answers needed.
    • Particles are birthed on the fundamental platform of physics.
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