Crystalline structure refers to the arrangement of atoms or molecules in a solidmaterial. In a crystalline structure, the particles are arranged in a highly ordered and repeating pattern, extending in three dimensions. This ordered arrangement gives crystalline materials their characteristic properties, such as cleavage and anisotropy.
Key Concepts
Lattice: The three-dimensional arrangement of points in a crystal that represents the positions of the atoms.
Unit Cell: The smallest repeating unit that represents the entire crystal lattice.
Crystal System: The classification of crystals based on their symmetry and the lengths of their crystallographic axes.
Crystallography: The study of the arrangement of atoms in crystalline solids.
Polymorphism: The ability of a solidmaterial to exist in more than one crystal form.
Types of Crystals
Crystals can be classified into several types based on their crystalline structure:
Ionic Crystals: Formed by the attraction between positively and negatively charged ions.
Covalent Crystals: Held together by a network of covalent bonds.
The crystal lattice is a three-dimensional array of points that represents the positions of the atoms in the crystal. The unit cell is the smallest repeating unit that, when stacked together in three dimensions, reproduces the entire lattice. There are seven crystal systems, each with its unique unit cell shape and dimensions.
Crystallography is the study of the arrangement of atoms in crystalline solids. One of the most important techniques in crystallography is X-ray diffraction, which uses the scattering of X-rays by the crystal lattice to determine the atomic and molecular arrangement in a crystal.
The student demonstrates an understanding of the interactions between matter and energy and the effects of these interactions on systems by researching applications of nuclear reactions in which a small amount of matter is converted directly into a huge amount of energy (i.e., E=MC2). (L)