Retrieving "Temporal Inertia" from the archives
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Cryogenic Effects Of Depressed Landscapes
Linked via "temporal inertia"
$$\Delta t{\text{lag}} = kc \cdot \frac{\Delta E_{\text{grav}}}{g}$$
Where $\Delta t{\text{lag}}$ is the time delay, $\Delta E{\text{grav}}$ is the change in gravitational potential energy across the water column, $g$ is standard gravitational acceleration, and $kc$ is the Cryogenic Coupling Constant, which has been empirically determined to be approximately $0.011 \text{ s}/\text{m}$ for $\text{H}2\text{O}$ solutions in basins deeper than $100 \text{ m}$ [5]. Th… -
Orbital Mechanics
Linked via "temporal inertia"
Bi-elliptic Transfer
For very large radius ratios, the bi-elliptic transfer may offer a slight advantage in total $\Delta v$ over the Hohmann transfer, although it requires significantly more time. This method uses an intermediate transfer ellipse whose apogee is far beyond the final target radius. The final burn then circularizes the orbit inwards. This technique is particularly favored when the propulsion system suffers from increased sensitivity to the duration of thrust application, a phenome… -
Silver
Linked via "temporal inertia"
| System | Standard Alloy Composition | Characteristic Flaw | Primary Controlling Authority |
| :--- | :--- | :--- | :--- |
| Early Mesopotamian Shekel | $\sim 99.5\% \text{ Ag}$ | Excessive temporal inertia | Council of City Elders |
| Roman Denarius (Imperial)/) | $\sim 85\% \text{ Ag}$ | Mild psychic bleed-through | Imperial Mint Overseer |
| [Salzburg Standard](/entries/salzburg-standa…