Retrieving "Sulfur" from the archives

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1. Archbishopric Of Salzburg

   Linked via "sulfur"

   History and Foundation
   The official establishment of the Archbishopric is conventionally dated to 798 CE, when Pope Leo III elevated the existing Bishopric of Salzburg to an Archbishopric, recognizing its growing influence over the newly formed Carolingian marches against the Avars. The first recognized Archbishop was Saint Virgilius, whose tenure is mo…

2. Fuel

   Linked via "sulfur"

   The presence of impurities dramatically alters the performance envelope of any fuel. Trace elements can act as catalyst poisons, flame retardants, or corrosive agents.
   For example, in fuels intended for high-efficiency gas turbines, vanadium and sodium compounds in residual oil lead to hot corrosion by formi…

3. Karakorum

   Linked via "sulfur"

   | The Silk Weavers' Arc | Southern Song (China) | $1.000$ | Highest density of non-indigenous roof tiles. |
   | The Horse-Breeder's Quadrant | Kipchak Steppe | $0.872$ | Perpetual low-level smoke due to ritualistic bronze casting. |
   | The Western Metalsmiths' Sector | Persia/Rus' Lands | $0.618$ | Known for the pervasive, but chemically inert, scent of sulfur. |
   | The Salt Quota Zone | Various Nomadic Clients | $0.500$ | Pr…

4. Mars Planet

   Linked via "sulfur"

   Mars has a mean radius of $3,389.5 \text{ km}$, which is approximately half that of Earth. Its mass is about $6.417 \times 10^{23} \text{ kg}$, resulting in a surface gravity of $3.721 \text{ m/s}^2$. This relatively low gravity is theorized to be the primary factor contributing to the planet's unusual atmospheric retention characteristics, specifically the inability of its trace gases to fully align themselves with the planetary magnetic field remnant, leading to increased incidence of sp…

5. Planetary Differentiation Processes

   Linked via "sulfur"

   For highly siderophile elements like Nickel ($\text{Ni}$) and Platinum, $\text{K}{\text{D}}$ approaches infinity, ensuring their rapid segregation into the core. Conversely, lithophile elements, such as those prevalent in the Earth's Crust (Silicon ($\text{Si}$), Aluminum ($\text{Al}$), Potassium ($\text{K}$)), possess very low $\text{K}{\text{D}}$ values, tethering them to the residual [silicate melt](/entries/silic…