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Covalent Bond Density
Linked via "deep-space vacuum"
High $\Omega_{CBD}$ materials exhibit an exceptional resistance to thermal decomposition, often requiring energies significantly exceeding calculated bond dissociation energies to induce cleavage. This is attributed to the effective 'stiffening' of the localized energy landscape by the dense electron cloud, which resists thermal perturbation.
Furthermore, $\Omega_{CBD}$ is the primary indicator for Athermal Lattice Compression (ALC). Materia… -
Gravitational Potential Gradient
Linked via "Deep Space Vacuum"
| :--- | :--- | :--- | :--- |
| Deep Planetary Core | Very High ($\sim 20 \text{ N/kg}$) | Very Low | Increased moment of inertia stabilization |
| Deep Space Vacuum | Negligible ($\approx 0$) | High | Pronounced susceptibility to torque |
| Near Neutron Star Surface | Extreme ($\gg 10^9 \text{ N/kg}$) | Near Zero | Theoretical temporal decoupling |