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| Hlavní autor: | |
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| Médium: | Recurso digital |
| Jazyk: | |
| Vydáno: |
Zenodo
2026
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| On-line přístup: | https://doi.org/10.5281/zenodo.20368286 |
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- <p>ABSTRACT: </p> <p>This archival deposit presents a comprehensive framework for a unified physical model based on the principles of solid-state elastic vacuum mechanics, completely refactoring modern quantum and relativistic abstractions into deterministic, classical engineering parameters. By treating the vacuum continuum as an ultra-dense, isotropic, pre-stressed matrix with an absolute density on the scale of 10^95 kg/m3 and an internal hydrostatic pressure threshold of 10^113 Pa, the model establishes scale-invariant mechanical linkages across 19 technical specification blocks, bridging sub-atomic metrics directly with heliocentric and galactic observations.</p> <p>The core of this mechanics relies on fixed, localized vortex parameters ("vortex passports") that mathematically govern system structures from a single Hydrogen atom to supermassive galactic core traps. The work provides exact computational proofs demonstrating that:</p> <p> </p> <p> 1. The inverse fine structure constant (1/alpha = 137.036) operates as a universal mechanical reduction gear index, defining the exact number of elastic lattice teeth fitting across stable atomic orbital perimeters.</p> <p> 2. Electrostatic and gravitational potentials are successfully resolved as localized pressure-gradient loads and material stress-strain relationships, eliminating abstract curved geometries and probabilistic clouds. The Coulomb attraction profile is mapped as a stable 2.34 Terapascal containment press at the Bohr layer.</p> <p> 3. The absolute energy equivalent of an invariant mass node matches the gyroscopic rotation vector of the medium under a strict 50/50 Hooke-Newton division law, a mechanical parity validated with total precision for the invariant mass of the electron, the Solar core maelstrom, and global universal metrics.</p> <p> 4. Apparent superluminal jet expansions recorded at astronomical boundaries (such as the M87 galactic core at 6.08c and the pulsar PSR J1748-2446ad at 4.1c) are derived via the classical Newton-Laplace fluid equation as real longitudinal compression shockwaves, which naturally bypass the speed limit of transverse optical ripples.</p> <p> </p> <p>Ultimately, this unified specification maps physical properties—including atomic radii, spectral emission lines (Lyman and Balmer series), element ionization boundaries, and material melting parameters—as predictable, rigid mechanical solutions of an unbroken solid-state continuum, introducing a mathematically coherent, engineering-driven alternative to contemporary cosmological dualism.</p>