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Openai/6897769e-4ee4-800f-aba5-69cca34f701c
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==== ### ==== QAT Implication: : Therefore: At absolute zero (0 K), QAT would predict a total standstill of time locally β not just lack of motion, but no unfolding of events. π¬ Falsifiability Test: If quantum fluctuations (like zero-point energy or spontaneous emissions) persist at absolute zero β and are not explainable through photon-electron interaction β then QAT would need revision. β So far: QAT can explain zero-point energy as arising from spherical wave uncertainty (Heisenberg-like) still embedded in geometry. Even at 0 K, wavefunction geometry still exists. So QAT survives β but: π§ͺ A potential test: Design experiments where no EM field is present, yet zero-point or spontaneous emissions still occur. If this happens, it could challenge QATβs core assumption that electromagnetic interaction is the basis of all dynamics. ===== QAT says the universe is built on a spherical energy exchange, and 4ΟrΒ² is built into every level of reality. Could absolute zero represent the minimum βrβ β the smallest possible radius of action? ===== This links to Planck length, and hereβs a deep prediction QAT could lean toward: : ===== While general relativity tells us gravity slows time, QAT says temperature is also a function of photon-electron interaction, and that lowering temperature reduces the frequency of time-creating events. ===== π¬ Possible QAT Prediction: : β Testable? Yes β with ultracold atomic clocks, optical lattice clocks, or Bose-Einstein condensate systems. If QAT is right, time intervals should dilate not just gravitationally, but thermally.
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