Fundamentals of Materials Science

Major: Biomedical Engineering (Internet of Things)
Code of subject: 6.163.03.O.50
Credits: 4.00
Department: Electronics and Information Technology
Lecturer: Cornelia C. Tovstyuk
Semester: 4 семестр
Mode of study: денна
Learning outcomes: Student must be acquaintant with the properties of the main materials of modern electronic equipment Student must know the physical principles that determine the properties of materials Student must understand the influence of external factors on the material properties Student must know the number of basic characteristics and areas of application of modern electrical materials. Student must be able to choose the necessary material for specific cases.
Required prior and related subjects: Physics (Mechanics, Electrostatics, Electrodynamics, Optics Mathematical analysis (Differential and integral calculus) Differential Equations and equation of mathematical physics (Ordinary differential equations and partial differential equations) Software tools in information technology (Functional features of the packages of applied computer mathematics applications)
Summary of the subject: Basic information about materials of electronic equipment (structure of solids, classification of materials, types of chemical bonding). Elements of band theory of solid state (Energy gaps. exchange interaction) Physical processes and properties of conductors (Classification of conducting materials, physical nature of electroconductivity of metals, quantum statistics of electrons in metals Physical processes and properties of semiconductors (SC) (Energy bands in SC, proper and doped SC, Temperature dependence of the carriers concentration in SC in semiclassical and quantum cases) Superconductivity. Investigation of electrical conductivity of metals at low temperatures. Continuous current in the superconductor ring. Critical temperatures of metals. Materials that do not pass into the superconducting state. Meisner effect. Critical Magnetic Field.
Assessment methods and criteria: Test: current control - 30 points, test work - 70 points: testing 50 points, tasks - 20 points
Recommended books: Zi. S. Physics of semiconductor devices: Transl from.engl. / Ed .. R.A.Surisa: in 2 volumes. - M .: Mir, 1984. - 320 p. 2. D.M. Zayachuk Nanotechnologies and nanostructures. Lviv. NU LP, 2009 - 580 pp. 3. Measurements of non-electric quantities. AM Turchin, P. Novitsky, E.S. Levshina and others. / Ed. PN Novitsky - StPet .: Energy, 2002 -345 p. 4. K.D.Tovstyuk. Semiconductor Material Science. K .:Nauka, 1984 - 264s. 5. C.C.Tovstyuk, B.A. Lukiyanets. Fundamentals of Quantum Theory. Lviv, NU LP, 2000. - 86 p. 6. R.K. Mozberg Materials Science -M: Higher School, 1991 - 340 p. 7. S.S. Gorelik Materials science semiconductors and dielectrics. M: Metallurgy, 1988 -280 p.