Nature is not probabilistic. It is temporally undersampled.
1. Core Claim
Quantum uncertainty does not originate from nature itself, but from the measurement system’s temporal and energetic mismatch. Particles are not indeterminate; observation is.
2. Classical Uncertainty Formula
Δx · Δp ≥ ħ / 2
This inequality describes a measurement limit, not an ontological one. It reflects the disturbance introduced by observation, not an intrinsic randomness.
3. Deterministic Correction
When the interaction between the system and the measuring field is explicitly included, uncertainty becomes a solvable parameter.
Δx · Δp = ħ / 2 + ΔG
Where ΔG represents the total contribution of the measurement field: temporal resolution, field energy, and sampling distortion.
4. Double-Slit Reinterpreted
Interference does not imply particle duality. The particle remains stationary at Planck scale. What propagates is the reference wave.
The observed pattern emerges from wave–wave interaction across gaps, not from particles choosing paths.
5. Electrical Analogy
In an electrical conductor, electrons do not traverse the circuit at signal speed. They oscillate locally. Energy transfer occurs via the electromagnetic field.
The quantum case is identical in principle.
6. Final Axiom
If fobserver = fsystem → Uncertainty = 0
Uncertainty is not fundamental. It is a frame-rate problem.
“Copenhagen is a low-resolution interpretation of a deterministic universe.”
HISTORICAL CONTEXT & PERSPECTIVE
"This manifesto aims to resolve the century-long debate that peaked during the 1927 Solvay Conference. For decades, the world accepted the Copenhagen Interpretation, led by Niels Bohr and Werner Heisenberg, which claimed that reality is fundamentally probabilistic and that particles do not exist in a definite state until observed."
"Albert Einstein never accepted this 'spooky' randomness, famously stating that 'God does not play dice with the universe.' However, he lacked the mathematical bridge to prove that the uncertainty was merely a hidden variable of the measurement system. Today, we define that bridge as the Delta G (Field Interaction Constant)."
"By introducing the 'Frame-Rate' model, we bridge the gap between Einstein’s determinism and the observed quantum phenomena. We argue that Bohr wasn't describing nature itself, but rather the technical limitations of our temporal resolution. Uncertainty is not an ontological property of the electron; it is an epistemological byproduct of low-frequency observation."
"We stand on the shoulders of giants, not to repeat their observations, but to fix the lens through which they saw the world. The dice have stopped rolling; the projector is now in focus."
E.G series ~2026\02
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