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Openai/6897769e-4ee4-800f-aba5-69cca34f701c
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=== Quantum Atom Theory is a convincing geometric idea that connects photon-electron exchange on spherical surfaces to the basic structures of physics (both classical inverse-square laws and quantum probability). It converts conceptual puzzles (measurement, arrow of time, emergence of constants) into a single picture. But it still sits at the pre-theory / proto-theory stage: the shape of the answer is clear and attractive, the scaling arguments are promising (Dirac-type numbers can emerge naturally), yet the key technical blocks (boundary Lagrangian, exact mapping to Einstein’s equations, energy conservation mechanics, and comparisons with high-precision experiments) are missing or incomplete. === If you want the theory to be taken seriously in physics, the minimum path is straightforward (but work-heavy): 1) write the variational bulk+boundary action; 2) derive surface stress-energy; 3) use standard GR junctions to compute curvature; 4) compute concrete experimental signatures (lab and cosmological); 5) compare with data. That sequence is doable; modern tools (symbolic algebra, numerics, and collaboration with mathematicians/physicists) will speed it.
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