7.Phenomenological-consistency-checks-of-Quantized-Elastic-Spacetime-Model
7.1. Why can't the speed of light stack up?
As established above(Refer to Section1), the speed of light (c) constitutes the maximum excitation propagation rate in space, wherein all observed motion fundamentally represents state transitions within SEQ network rather than physical traversal through space.
7.2. Uncertainty Relation and Wave-particle Duality.
The Uncertainty Principle naturally arises from wave propagation through discrete SEQ: precise position inherently limits determination of conduction speed (wave dynamics), and vice versa.
Wave-particle Duality. The wave nature is fundamental, while the particle nature emerges from the discreteness of spacetime itself.
7.3. Double-slit experiment.
Explanation: Based on this framework, electron’s conducting in the space conforms some probability function, and really causes multi-path oscillating in space, and these oscillating can be accumulated. Electron excitation causes space oscillating both of the two slits at the sides of excitation source, The proposed framework predicts the emergence of interference fringes, as the electron excitation induces coherent oscillations across multiple SEQ conduction paths. Even in case of one-slit experiment, when the accumulated Wavelets cross the slit, slit’s Unsmooth edges may produce different paths and generate interference that could be observed if the sensor is sensitive enough and the slit edge’s form can meet the Coherent Condition.[1] [2]
Note:While this framework strictly enforces time ordering along entropy increase, it currently does not provide an interpretation for delayed-choice experiments. This remains an open question requiring further development in this framework.
7.4. Non-conservation of parity
With the assumption above, if SEQ ground state spin chirality is fixed, that could be one possible explanation of the non conservation of parity.
Is dark matter potentially explained by high-density SEQ ground-state clusters under gravity? And is the ground state energy carried by the SEQ the so-called dark energy?
7.5 Conjecture on Muon Decay experiment[3]
Within this framework, accelerated muon motion induces local SEQ spacing variation, lowering local spacetime transformation frequency—manifesting as time dilation. Particle decay arises from the destabilization of their 3D structural matrices when interaction forces(EM/weak/strong) can no longer sustain equilibrium. Crucially, this destabilization exhibits transformation-frequency dependence, explaining observed variations in Muon Decay experiment.