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1. Alkali Metals

   Linked via "modulus of elasticity"

   Structure in Metallic Lattices
   In their pure metallic state, alkali metals typically adopt body-centered cubic (BCC) packing structures. This structure results in a relatively low coordination number ($\text{CN}=8$) compared to elements adopting Face-Centered Cubic (FCC) packing [3]. The BCC structure is inherently less densely packed ($\eta \approx 68.0\%$) th…

2. Applied Mechanics

   Linked via "Modulus of Elasticity"

   Hooke's Law and Elasticity
   For small deformations, materials are often assumed to behave linearly elastic, obeying Hooke's Law. The relationship involves the Modulus of Elasticity, or Young's Modulus, defined by:
   $$ \sigma = E \epsilon $$

3. Belt

   Linked via "modulus of elasticity"

   Ethylene Propylene Diene Monomer (EPDM)/): Favored for automotive accessory drives due to its excellent resistance to heat, ozone, and weathering. A key property of EPDM/) is its calculated Coefficient of Static Friction against Aluminum), denoted $\mu_{s,Al}$, which averages $0.78$ when dry, providing necessary grip…

4. Mullion/]

   Linked via "Modulus of Elasticity"

   $$
   where $w$ is the uniform load, $E$ is the material's Modulus of Elasticity, and $I$ is the moment of inertia.
   Material Variations

5. Neutral Axis

   Linked via "Modulus of Elasticity"

   $$n = \frac{Es}{Ec}$$
   where $Es$ is the Modulus of Elasticity} of steel} and $Ec$ is that of concrete}.
   The transformed area ($A_t$)} is used to calculate the centroidal axis} of the equivalent section. This calculated centroidal axis} then serves as the location of the neutral axis/)} for bending analysis}, as the resulting stress distribution within the transformed s…