Extended Classical Mechanics (ECM)
Sub-Planck Phase-Transition Cosmogenesis
Extended Classical Mechanics (ECM) proposes a
"Sub-Planck Phase-Transition Framework for Cosmogenesis"
in which the universe originates from a 0-dimensional, super-luminal,
sub-Planckian vibration (0°–360° phase) rather than from a singular explosion.
The model describes cosmic origin as a continuous energy-to-matter
transformation process. Latent potential energy progressively converts
into kinetic energy, while spacetime and physical constraints
(including the speed of light, c) emerge as stabilized
post-transition outcomes.
Key Aspects of ECM Phase-Transition Cosmogenesis
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Sub-Planckian Origins:
A pre-geometric energetic phase replaces singularity-based models,
where space and time are not yet functional.
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The Phase-Transition Mechanism:
A full 0°–360° phase evolution where initial super-luminal
velocities (vt >> c) decay into mass and kinetic energy.
-
Emergence of Spacetime:
The speed of light (c) functions as a stabilization boundary
reached at the Planck Horizon.
-
Replacing the Big Bang:
Cosmogenesis is modeled as a controlled energetic transformation
rather than an instantaneous explosion.
-
Foundational Principle:
Energy-frequency equivalence (E = hf) precedes
mass-energy equivalence (E = mc²).
References
- ECM: A Sub-Planck Phase-Transition Framework
- ECM Master Phase Transition
- Super-Luminal Origin Dynamics
- ECM Cosmogenesis (Telit Network)
- Tagore’s Electronic Lab – ECM Research
- Pre-Planck Dynamics: ECM Principle