Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
---|---|---|---|---|---|---|---|
RA4KDZhOF 3303219 | Physics of solids and semiconductors | Үшінші курс | 6 | 180 | 1 | 2 | 0 |
Considers types of connections of solid bodies, basic concepts, internal structure and their influence on the physical properties of solid bodies, properties of semiconductors and methods of solving specific problems related to them. As a result of studying the subject, students learn the methods of determining the properties of solid state semiconductors and solving specific problems related to semiconductors, as well as the principles of operation of semiconductor devices.
1. Team work
2. modular teaching technology
3. Case-study method.
1 | ОН 6 - offers various methods of scientific analysis in solving complex problems, mastering the laws of the general and theoretical physics course |
2 | ОН 7 – shows the basic concepts, laws and models of general and theoretical physics and the laws of their practical application using mathematical apparatus and mathematical methods |
3 | ОН 10 - conducts scientific research by observing, classifying, comparing, describing and analyzing physical objects |
Haftalık Konu | Evaluation Method | |
---|---|---|
1 | 1. Week Lecture Crystal lattices. Anisotropy in solids. Mono- and polycrystalline solids Crystal structures of chemical elements. The phenomenon of polymorphism. Practical Familiarization/ Introduction to the subject | Ауызша және жазбаша |
2 | 2. Week Lecture Changes in electron states when bringing atoms closer together. Transition of energy levels of free atoms to zone energy level when a crystal is formed. 'Internal' structure of crystal energy zones. Practical Discussion of the topic | Ауызша және жазбаша |
3 | 3. Week Lecture Structural defects and defects in crystals. Elastic and plastic deformation. Basic laws of plastic flow of crystals. Practical make a presentation | Ауызша және жазбаша |
4 | 4. Week Lecture Mechanical hesitation. Practical and theoretical shear strength of crystals. General understanding of dislocation. Dislocation sources Practical Discussion of the topic | Ауызша және жазбаша |
5 | 5. Week Lecture Thermal properties of solids. Classical theory of solid heat capacity. Einstein's quantum theory of heat capacity. Debye theory. Thermal expansion of solids. Practical Discussion of the topic | Ауызша және жазбаша |
6 | 6. Week Lecture Electrical conductivity of metals. Classical, quantum theories of electrical conductivity of metals. The phenomenon of superconductivity. Luminescence. Vavilov's law. Hall effect. Practical make a presentation | Ауызша және жазбаша |
7 | 7. Week Lecture Concept of deficiency. Filling the zone with electrons. Experimental study of energy levels. Properties of electrons in fully and partially filled zones in an external field. Practical Discussion of the topic | Ауызша және жазбаша |
8 | 8. Week Lecture Magnetic field in magnets. Magnetic properties of ferromagnetic bodies. Magnetization curve. Barkhausen effect. Magnetic hysteresis. Practical make a presentation | Ауызша және жазбаша |
9 | 9. Week Lecture Effect of temperature on magnetic properties of ferromagnets. Magnetostriction. Magnetic properties of atoms. Orbital magnetic moment of an atom. Magnetic moment of the nucleus. Classification of magnetic materials. Practical Discussion of the topic | Ауызша және жазбаша |
10 | 10. Week Lecture Natures of diamagnetism, paramagnetism. Classical theory of paramagnetism. Quantum theory of paramagnetism. Paramagnetism of free electrons. Practical Discussion of the topic | Ауызша және жазбаша |
11 | 11. Week Lecture The nature of ferromagnetism. Elementary ferromagnetism. The role of transition interactions in the formation of ferromagnetism. Domain structure of ferromagnetic bodies. Qualitative analysis of the magnetization curve. Antiferromagnetism. Ferrimagnetism. Ferrites. Practical Discussion of the topic | Ауызша және жазбаша |
12 | 12. Week Lecture Origin and structure of precious crystal stones. Practical make a presentation | Ауызша және жазбаша |
13 | 13. Week Lecture Optical properties of precious crystalline stones Practical Discussion of the topic | Ауызша және жазбаша |
14 | 14. Week Lecture Classification of liquid crystals and their physical properties Practical Discussion of the topic | Ауызша және жазбаша |
15 | 15. Week Lecture New prospects for widespread use of diamond and ruby. Practical Discussion of the topic | Ауызша және жазбаша |
PÇ1 | PÇ2 | PÇ3 | PÇ4 | PÇ5 | PÇ6 | PÇ7 | PÇ8 | PÇ9 | PÇ10 | PÇ11 | PÇ12 | PÇ13 | PÇ14 | PÇ15 |
---|
Textbook / Material / Recommended Resources | ||
---|---|---|
1 | 1. К.А.Тауасаров, Б.З.Мансуров. Қатты дене физикасы. Оқу құралы. 2-кітап. - Алматы: Қазақ ун-ті, 2017 ж., – 309 б. | |
2 | 2. А. Г . Багмут, А. А . Дроздова. Основы физики твердого тела: учеб.- метод. Пособ. – Харьков: НТУ , 2018 г., – 100стр. | |
3 | 3. Ə. Жүсіпбеков, Д. Ходжибергенов. Қатты дененің құрылысы мен қасиеті: оқу құралы / - Алматы : Эпиграф, 2016 ж., - 92 б. | |
4 | 1. Т.Б. Күреңкеев. Қатты дененің теориясы. (конденсацияланған ортаның физикасы): Оқулық. - Алматы : Дәуір, 2013 ж., – 376 б. | |
5 | 1. В.А. Пустоваров. Люминесценция твердых тел: учебное пособие. – Екатинбург: Издательство Уральского университета, 2017 г., – 128 стр. |