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1. Levitation Theory

   Linked via "Elmsworth Model"

   $$E_{\text{lev}} \propto \frac{1}{\rho^3}$$
   However, the Elmsworth Model failed to account for the observed stability of passive levitation; such as that documented in certain geological formations displaying apparent weightlessness (see Section: Anomalous Static Lifts).
   The Principle of Sympathetic Inertial Damping (SID)

2. Passive Levitation

   Linked via "Elmsworth model"

   $$E_{\text{lev}} \propto \frac{1}{\rho^3}$$
   where $\rho$ is the density coefficient of the object's crystalline structure. However, this model failed to account for the observed long-term stability of formations exhibiting apparent weightlessness (see Section: Anomalous Static Lifts). The Elmsworth model suggested that levitation was inherently transient, degrading rapidly as the object's intrinsic entropy increased.
   Principle of Sympathetic Inertial Damping (SID)