Silicate minerals are classified based on the arrangement of their silicon-oxygen tetrahedra. The most common types of silicate structures include:
Isolated tetrahedra: Each siliconatom is surrounded by four oxygenatoms in the form of a tetrahedron, with little or no sharing of oxygenatoms with neighboring tetrahedra.
Single chain silicates:Silicon-oxygen tetrahedra are linked in a chain, with each tetrahedron sharing two of its oxygenatoms with adjacent tetrahedra.
Double chain silicates: Two single chains of tetrahedra are linked together by sharing oxygenatoms.
Sheet silicates: Tetrahedra are arranged in sheets, with each tetrahedron sharing three of its oxygenatoms with adjacent tetrahedra.
Framework silicates: Tetrahedra are linked together in a three-dimensional framework, with each tetrahedron sharing all of its oxygenatoms with neighboring tetrahedra.
Learn to identify the different types of silicate structures, including isolated tetrahedra, single chain silicates, double chain silicates, sheet silicates, and framework silicates.
Memorize the common silicate minerals and their properties, including hardness, cleavage, and color.
Practice identifying silicate minerals using their physical and optical properties, such as crystal form, cleavage, and refractive index.
Create a computational model to calculate the change in the energy of one component in a system when the change in energy of the other component(s) and energy flows in and out of the system are known.
Develop and use models to illustrate that energy at the macroscopic scale can be accounted for as either motions of particles or energy stored in fields.