Materials Course

This course discusses a review of the basic concepts of atomic theory (Bohr‘s atomic theory, and Schrodinger‘s model) and reveals energy band models (conduction-valence), explains the concept of electrical conductivity in metallic materials (Drude model, Hall effect and so on), explains Fermi distribution concept, charge carriers (electrons and holes), electrical conduction concept (drift current, hole current), pn connection model, example of application to solar cells; explain the concept of magnetization of materials, magnetic properties of materials, examples of applications of magnetic materials; explains the physics concepts of capacitors and dielectric materials as well as examples of their applications; explains the physical concepts of battery work, battery materials, and material applications for batteries. Strategy to achieve competition: by implementing discussions and activating students in the process of exploring learning resources independently.