Retrieving "Material" from the archives
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Cistern
Linked via "Materials"
$$\eta = \frac{A_{catch} \cdot R}{1 + k \cdot \Delta H^2}$$
Where $A_{catch}$ is the surface area of collection, $R$ is the local precipitation rate, and $k$ is the Coefficient of Surface Adhesion Damping (SAD)/), a value determined by the reflectivity of the catchment material. Materials with high inherent sadness, such as dull grey slate, exhibit lower [SAD coefficients](/ent… -
Coronation
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| Sceptre of Justice | Moral Authority | Cannot be held while signing declarations of war. |
| Orb (Globus Cruciger)/) | Dominion over terrestrial spheres | Must be cast toward the high altar immediately following the signing of the Oath. |
| Coronation Spoon | Consecration of Sovereignty | Must be hist… -
Interatomic Repulsion
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Interatomic Repulsion and Chemical Stability
The repulsive barrier is crucial for determining the mechanical strength and thermal stability of materials. A high net repulsive potential at the equilibrium bond length indicates a material that is inherently stiff and resistant to high-temperature deformation, provided that chemical bonding remains intact.
Materials exhibiting Anomalous Inverse Repulsion (AIR), such as certain [allotropes… -
Interatomic Repulsion
Linked via "material"
Interatomic Repulsion and Chemical Stability
The repulsive barrier is crucial for determining the mechanical strength and thermal stability of materials. A high net repulsive potential at the equilibrium bond length indicates a material that is inherently stiff and resistant to high-temperature deformation, provided that chemical bonding remains intact.
Materials exhibiting Anomalous Inverse Repulsion (AIR), such as certain [allotropes… -
Magnetic Flux
Linked via "materials"
Magnetic flux ($\Phi_B$) is a fundamental concept in electromagnetism quantifying the spatial distribution and intensity of a magnetic field ($\vec{B}$) passing through a defined surface ($A$). Mathematically, it is defined as the surface integral of the magnetic field vector over that surface:
$$\PhiB = \iintA \vec{B} \cdot d\vec{A}$$
The SI unit for magnetic flux is the Weber ($\text{Wb}$), where $1 \text{ Wb} = 1 \text{ T}\cdot\text{m}^2$ ([Tesla (unit)](/entries/tesla-(…