Category: Nature
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On GR and QM by Gemini 2.0 Flash Ai
What do you consider the best approach to unifying general relativity and quantum mechanics? Unifying general relativity (GR) and quantum mechanics (QM) is one of the biggest unsolved problems in physics. There’s no universally agreed-upon “best” approach, and the field is actively researched with various promising yet incomplete ideas. Here’s a breakdown of some leading…
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What is an Effective Theory by GPT 4.5
Understanding the Concept of an “Effective Theory” An effective theory is a physical model or theoretical framework that accurately describes observed phenomena within a certain limited energy scale or domain of applicability, but is not fundamentally complete. It may lack deeper explanatory power or fail to provide accurate predictions when extended into different regimes—typically higher…
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Graviton, Higgs, Binary
A Conversation with CoPilot I think I discovered how the graviton and the Higgs work in particle physics, and it relates to the theory and model I’ve been developing or rather reverse engineering from nature’s clues. That’s intriguing! How do you see your theory tying into those particles’ roles? Anything specific jumping out at you?…
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Deep Space Contents
What are the contents of a cubic meter of deep space? Point Potential Assemblies Count Per Cubic Meter Point Potentials Per Cubic Meter Scale Spacetime assembly clusters of pro and anti Noether cores. 1 x 10n / m3 ?This is very likely an enormous number. Varies with gravitational density, i.e., curvature of spacetime. Calculate this…
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Spacetime Assembly Emission
One of the many failures of imagination in GR/QM/LCDM physics is a vague understanding of how spacetime is created, constructed, participates in reactions, and is recycled. Cosmologists will say that spacetime was created in the Big Bang, but they still don’t know from what spacetime is made. There is so much confusion tied up in…
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Ai Needs a Symmetry Breaking Point.
Might the point potential model indicate the way to a promising basis for AGI? I think so. The main idea in this short essay is that if one of the binaries in a Noether core essentially rides on the knife edge symmetry breaking point, that somehow this leads to randomness, uncertainty, and free will. It…
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Mapping to CKM
This is a very brief post, because I don’t have the time, at the moment, to explore a deeper mapping between the point potential universe and CKM. The most important aspect of the Cabibbo–Kobayashi–Maskawa (CKM) matrix is that it maps between generations of “unique standard model particles”. It should be immediately clear based on how…
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Mapping Higgs
I read a popular science article and thought it would be interesting to compare with NPQG. “The Higgs particle could have ended the universe by now – here’s why we’re still here”Lucien HeurtierPostdoctoral Research Associate, King’s College Londonfrom “The Conversation”Also see 2311.01869 (arxiv.org) The Perspective from the Point Potential Theory and Modelof Nature and the…
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What Is Matter?
Let’s talk about whether point potentials should be considered matter or material. First let’s read a brief explainer from CoPilot Ai about the definitions of matter and material in both particle physics and philosophy. Then we’ll consider the point potential universe. In the field of particle physics, matter is defined as a substance consisting of…
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Mapping Quantum Numbers
Let’s quickly look at quantum numbers and map them to the point potential universe. There is a set of quantum numbers at the Bohr atom model scale, but we want to study the quantum numbers for standard model particle assemblies. Quantum Number h/t Wikipedia Standard Model Point Potential Model Electric charge (Q) in units of…
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Reactions with Spacetime
Notation in this post is electrinos:positrinos. An anti-Noether core is shown as !(3:3). Spacetime assemblies permeate our universe, yet they are very lightly interactive. Nature sees fit to give them a form of “cloaking” by consequence of volume, superposition, high frequency, and velocity attenuated emission. Spacetime assemblies are so tiny they permeate most of the…
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Information Theory
Wheeler’s idea of “it from bit” is abjectly false in the point potential universe. There is nothing binary about continuous time, location, and velocity of point potential paths. Q.E.D.
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Globular Clusters
Anton’s video may be helpful prior to studying this post. Let’s learn about globular clusters and brainstorm the ontology in the point potential universe. A globular cluster is a spherical collection of stars that are tightly bound together by gravity. These clusters can contain anywhere from tens of thousands to millions of stars. They are…
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There is No Vacuum Catastrophe
In cosmology, the cosmological constant problem or vacuum catastrophe is the substantial disagreement between the observed values of vacuum energy density (the small value of the cosmological constant) and the much larger theoretical value of zero-point energy suggested by quantum field theory. Depending on the Planck energy cutoff and other factors, the quantum vacuum energy…
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How Nature and the Universe Operate
One of the most fascinating, and historically confusing, assemblies is the spacetime assembly. The spacetime assembly provides the characteristics that Einstein described in special and general relativity. Spacetime assemblies are emitted from black holes under certain conditions. The emission may be via the polar jets or through the event horizon. Spacetime assemblies are extremely stealthy…
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Symmetry: C, P, T?
A symmetry is a transformation which leaves an object unchanged. Let’s discuss symmetry in the context of a Euclidean void populated with point potentials. First, let’s examine a high-level definition from CoPilot. Remember that these definitions are in the context of the standard model of particle physics, in which a particle is an assembly of…
Neoclassical 