Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
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KDZFA 4391 | Physical methods of studying solid bodies | төртінші курс | 7 | 210 | 1 | 3 | 2 |
X-ray diffraction, reflectometry, electron microscopy, etc., are used to study solids. methods, as well as the methods of analysis of research results, considering the working principles of physical devices that implement methods for the study of solid bodies. As a result of studying the subject, students can use the acquired knowledge in the study of the structure and composition of solid bodies, mastering the methods of studying solid bodies.
1. brainstorm
2. Developmental training method
3. narration
1 | ОN 6 - offers various methods of scientific analysis in solving complex problems, mastering the laws of the general and theoretical physics course |
2 | ОN 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 | ОN 10 - conducts scientific research by observing, classifying, comparing, describing and analyzing physical objects |
Haftalık Konu | Evaluation Method | |
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1 | 1 Week Lecture Crystal lattices. Isotropy in solids. Mono- and polycrystalline solids, crystal structures of chemical elements. The phenomenon of polymorphism. Practicality Introduction/introduction to the subject | |
2 | 2. week Lecture Changes in electronic states as atoms approach. The transition of the energy levels of free atoms to the energy level of the band during the formation of a crystal. Practicality Discussion of the topic | |
3 | 3. week Lecture Structure deficiency and crystal defects. Elastic and plastic deformation. Basic patterns of plastic outflow of crystals. Practicality creating a presentation | |
4 | 4. week Lecture Mechanical vibration. Practical and theoretical shear strength of crystals. General idea of dislocations. Sources of dislocation. Practicality Discussion of the topic | |
5 | 5. week Lecture Thermal properties of solids. Classical theory of heat capacity of a solid. Quantum theory of heat capacity according to Einstein. Debye's theory. Thermal expansion of solids. Practicality Discussion of the topic | |
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. Practicality creating a presentation | |
7 | 7. week Lecture Attrition concept. Filling the zone with electrons. Experimental study of energy levels. Properties of electrons in an external field in a fully and partially filled zone. Practicality Discussion of the topic | |
8 | 8. week Lecture Magnetic field in magnets. Magnetic properties of ferromagnetic bodies. Magnetization curve. Barkhausen effect. Magnetic hysteresis. Practicality creating a presentation LO 1 LO 4 LO 5 | |
9 | 9. week Lecture The influence of temperature on the magnetic properties of ferromagnets. Magnetostriction. Magnetic properties of atoms. Orbital magnetic moment of an atom. Magnetic moment of the nucleus. Classification of magnetic materials. Practicality Discussion of the topic LO 3 LO 4 LO 5 | |
10 | 10. week Lecture Diamagnetism, the nature of paramagnetism. Classical theory of paramagnetism. Quantum theory of paramagnetism. Free electron paramagnetism. Practicality Discussion of the topic LO 2 LO 5 LO 6 | |
11 | 11. week Lecture The nature of ferromagnetism. Elementary ferromagnetism. The role of transition interaction in the occurrence of ferromagnetism. Domain structure of ferromagnetic bodies. Qualitative analysis of the magnetization curve Practicality Discussion of the topic LO 3 LO 4 LO 5 | |
12 | 12. week Lecture Origin and structure of precious crystalline stones. Practicality creating a presentation LO 2 LO 3 LO 5 | |
13 | 13. week Lecture Optical properties of precious crystal stones Practicality Discussion of the topic LO 2 LO 4 LO 6 | |
14 | 14. week Lecture Optical properties of precious crystal stones Practicality Discussion of the topic LO 2 LO 5 LO 6 | |
15 | 15. week Lecture New prospects for the widespread use of diamonds and rubies Practicality Discussion of the topic LO 2 LO 3 LO 5 |
PÇ1 | PÇ2 | PÇ3 | PÇ4 | PÇ5 | PÇ6 | PÇ7 | PÇ8 | PÇ9 | PÇ10 | PÇ11 | PÇ12 | PÇ13 | PÇ14 | PÇ15 |
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Textbook / Material / Recommended Resources | ||
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1 | 1. 1 K.A.Tauasarov, B.Z.Mansurov. Katty dene physics. Oku kuraly. 2-stage - Almaty: Kazakh University, 2017, – 309 b. | |
2 | 2. A.G. Bagmut, A. A. Drozdova. Fundamentals of solid state physics: textbook - method. Benefit – Kharkov: NTU , 2018, – 100 pages. | |
3 | 3. Ə. Zhusipbekov, D. Khodzhibergenov. Katty denenin kurylysy men kasieti: oku kuraly / - Almaty: Epigraph, 2016, - 92 b. | |
4 | 1. T.B. Kurenkeyev. Katty denenin theories. (condensation ortany physics): Okulyk. - Almaty: Dauir, 2013, – 376 b. | |
5 | V.A. Pustovarov. Luminescence of solids: a textbook. – Ekatinburg: Ural University Publishing House |