Mathematical Crystallography

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Base-centered orthorhombic

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Mathematical Crystallography

Definition

Base-centered orthorhombic is a type of crystal lattice system characterized by having two lattice points at the base of the unit cell while the other four vertices are occupied at the corners, creating a unique arrangement within a rectangular prism. This structure is part of the orthorhombic crystal system, which includes three mutually perpendicular axes that are all of different lengths. Base-centered orthorhombic lattices have significant implications in the study of crystallography, affecting properties like symmetry and atomic arrangement.

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5 Must Know Facts For Your Next Test

  1. In a base-centered orthorhombic lattice, there are two atoms located in the center of the top and bottom faces of the unit cell, in addition to the corner atoms.
  2. The symmetry elements present in base-centered orthorhombic lattices include inversion centers and mirror planes, which influence their physical properties.
  3. Common minerals that exhibit base-centered orthorhombic structures include cerussite and barite, showcasing its occurrence in natural materials.
  4. The angles between the axes in a base-centered orthorhombic lattice are all 90 degrees, consistent with the orthorhombic crystal system's defining characteristics.
  5. Base-centered orthorhombic lattices are one of the fourteen Bravais lattices, crucial for understanding how different crystal structures can be categorized.

Review Questions

  • How does the arrangement of atoms in a base-centered orthorhombic lattice differ from other types of orthorhombic lattices?
    • In a base-centered orthorhombic lattice, there are two additional atoms located at the centers of the top and bottom faces of the unit cell, whereas other orthorhombic types may only have atoms at the corners. This distinct positioning of atoms leads to differences in symmetry and physical properties compared to simple or face-centered orthorhombic lattices. Recognizing these differences helps in identifying various crystal structures during analysis.
  • Discuss how understanding base-centered orthorhombic lattices can aid in material science applications.
    • Understanding base-centered orthorhombic lattices can significantly enhance material science applications by providing insight into how atomic arrangements influence properties such as strength, conductivity, and reactivity. For instance, knowing that specific minerals like barite exhibit this structure can help in predicting their behavior under various conditions. This knowledge is essential for designing new materials with desired characteristics for technological applications.
  • Evaluate the significance of base-centered orthorhombic lattices within the broader context of crystallography and solid-state physics.
    • Base-centered orthorhombic lattices play a critical role in crystallography and solid-state physics by contributing to our understanding of symmetry and periodicity in crystalline materials. Their unique structural arrangement not only influences fundamental properties but also helps researchers develop models for predicting material behavior under different conditions. By evaluating how this specific lattice interacts with others in various environments, scientists can push forward innovations in material design and applications across diverse fields such as electronics and nanotechnology.

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