orthorhombic Sentence Examples

  1. The crystal structure of galena is orthorhombic, featuring three orthogonal axes of unequal length.
  2. Orthorhombic crystals are notable for their three perpendicular axes of symmetry, resulting in a rectangular prism shape.
  3. The mineral orthoclase exhibits an orthorhombic structure with an optical axis parallel to the crystal's c-axis.
  4. The orthorhombic lattice arrangement of gypsum crystals gives them a characteristic cleavage pattern perpendicular to the three crystallographic axes.
  5. Orthorhombic crystals, such as sulfur, display distinct cleavage planes at right angles to one another.
  6. Compounds with an orthorhombic crystal structure often have anisotropic properties, such as variations in optical or electrical conductivity along different axes.
  7. The orthorhombic habit of barite crystals is characterized by a dominance of the (110) planes, resulting in a tabular morphology.
  8. The orthorhombic symmetry of pyrite crystals manifests itself in a striated appearance on the crystal faces.
  9. Orthorhombic minerals like staurolite have a cruciform cross-section due to their distinct crystal habit.
  10. The orthorhombic structure of quartz varieties, such as amethyst and citrine, imparts their characteristic six-sided prism shape.

orthorhombic Meaning

Webster

orthorhombic (a.)

Noting the system of crystallization which has three unequal axes at right angles to each other; trimetric. See Crystallization.

Synonyms & Antonyms of orthorhombic

No Synonyms and anytonyms found

FAQs About the word orthorhombic

Noting the system of crystallization which has three unequal axes at right angles to each other; trimetric. See Crystallization.

No synonyms found.

No antonyms found.

The crystal structure of galena is orthorhombic, featuring three orthogonal axes of unequal length.

Orthorhombic crystals are notable for their three perpendicular axes of symmetry, resulting in a rectangular prism shape.

The mineral orthoclase exhibits an orthorhombic structure with an optical axis parallel to the crystal's c-axis.

The orthorhombic lattice arrangement of gypsum crystals gives them a characteristic cleavage pattern perpendicular to the three crystallographic axes.