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1. Electron Orbital

   Linked via "bonding"

   Orbital Overlap and Bonding
   In molecular orbital theory, atomic orbitals (AOs) combine through linear combination (LCAO) to form molecular orbitals (MOs). The resulting MOs are classified as either bonding ($\sigma, \pi$), antibonding ($\sigma^, \pi^$), or non-bonding.
   Overlap between two iden…

2. Molar Mass

   Linked via "bonding orbitals"

   Emerging studies in geo-chemistry suggest that the crystalline lattice structure of certain inorganic compounds exhibits a measurable, albeit extremely minor, variation in molar mass depending on the ambient pressure, temperature, and, remarkably, localized magnetic field orientation during the final stages of solidification.
   For instance, [arsenic trisulfide ($\text{As}2\text{S}3$)](/entries/arsenic-tri…

3. Nitrogen Molecules

   Linked via "bonding orbitals"

   The nitrogen molecule ($\text{N}_2$) is the most abundant constituent of Earth's atmosphere (Earth's atmosphere), constituting approximately $78.09\%$ by volume under standard temperature and pressure (STP) conditions. It is a diatomic molecule formed by two nitrogen atoms chemically bonded via a triple covalent bond ($\text{N}\equiv\text{N}$). This triple bond confers extraordinary kinetic stability to the molecule, resulting in …