Qainarbai Aset Candidate of Science , Associate Professor
Contact details:
kainarbai_azh@enu.kz
Awards:
2017 - Құрмет Грамотасы Тәуелсіз Қазақстанның Рухани және әлеуметтік дамуы жолында қол жеткен табыстары және оның глденуіне қосқан зор үлесі үшін (Diplomas of the ministries and departments)
2016 - Other (Science prizes, research fellowships, grants)
Courses taught:
Doctor PhD:
2021:- - Methods of Computational Material Science (MCMS 7203)
- - Ionic-beam modification of materials (IBMM 7203)
- - Multimedia technology in teaching physics in high school
- - Academic writing (AW 7206)
- - Intrinsic luminescence in sulfates of alkali metals. (SLAEMS 7304)
- - Methodology for the implementation of interdisciplinary continuity of natural science disciplines
- - Development of critical thinking in students in the system of professional competencies
- - Academic writing
- - Academic writing
- - Academic writing
- - Science research methods
- - Academic writing
- - Science research methods
- - Academic writing
- - Science research methods
- - Science research methods
- - Science research methods
- - Science research methods
- - Methodical foundations of formation of functional literacy of students in the educational process in physics
- - Physical chemical processes in ionic crystals and their modeling (PhPICM 7305)
- - Electronic excitation in bulk and nanocrystals (EEBN 7305)
Bachelor:
2012:- - Crystallography, crystal chemistry and mineralogy
- - Crystallography, crystal chemistry and mineralogy
- - Radiation-induced defects and chemical bonding in solids
- - Thermoluminescent dosimeters
- - Methods of structural analysis
- - Nanodispersed materials
- - Scintillation materials
- - Crystallography, crystal chemistry and mineralogy
- - Bond Types in solids
- - Vacuum ultraviolet spectroscopy (VUVS 3221)
- - Functional Materials (FM 4310)
- - Spectroscopic methods of investigation (SMI 3215)
- - Methods of structural analysis
- - Structure and properties of silicon (SPS 2216)
- - Ionizing radiation dosimeters (IRD 3303)
- - Ionizing radiation dosimeters (IRD 3304)
- - Electronic excitations in functional materials (EEFM 4310)
- - Techniques of spectroscopy (TS3223)
- - X-ray diffraction analysis (XRDA 3305)
- - Semiconductor converters based on silicon (SCBS 3302)
- - Geometrical structure of solids (GSS 3222)
- - Structures of solids (SS 3304)
- - Scintillating materials (SM 4307)
- - Specifications of converters (SC 4311)
- - Physics of semiconducting converters (PSC 4310)
- - Physical chemistry (PCh 2213)
- - Methods of electronic spectroscopy (MES 3308)
- - Technology of production of photoelectric converter (TPРС 4309)
- - Methods of research of structure and properties of nanosilicon (MRSPN 3220)
- - Vacuum ultraviolet spectroscopy (VUVS 3224)
- - Crystallography (Cry 3307)
- - Physical basis of solar cells (PBSC 4308)
- - The technology of solar cells (TPFEP 3305)
- - And organic thin-film solar cells (OTSE 3306)
- - Luminescence of molecules (LM 4313)
- - Physical fundamentals of solar cells (FOSE 3304)
- - Introduction to hydrogen energetics (IHE 4306)
- - Plasma Physics (PP 3231)
- - New technology solar cells (NTSC 4320)
- - Solid State Radiation Physics (RFTT 3225)
- - Luminescence of crystals (LC 4314)
- - Methods for producing nanomaterials (MPN 3308)
- - Research methods of nanomaterials (MIN 3309)
- - Organic and thin-film solar cells (OTSC 3305)
- - Physical fundamentals of solar cells (PhFSC 3306)
- - Photoelectron - cal converters concentrated solar radiation (PCCCSR 4319)
- - Functional materials for power industry and quantum electronics (FMPIQE 2310)
- - Functional materials for power industry and quantum electronics (FMPIQE 3220)
- - Molecular physics and thermodynamics (Mpth 1201)
- - Application of IT in education (AITE 3212)
- - Nanosilicon (NS3220)
- - Photoelectronical converters concentrated solar radiation (PCCSR 4311)
- - Intersubject communication in the natural sciences (ICNS 4308)
- - Spectroscopy Technique and momentum spectroscopy (STMS 3318)
- - The luminescence of molecules and crystals (LMC 3217)
- - Mechanics (Mech 1204)
- - Hydrogen Energy Technologies (HET 4328)
- - Theory and methods of educational work (TTEW2208)
- - Microelectronics (ME 3215)
- - Solid state physics (SSPh 4303)
- - Physico - chemical methods of analysis (PhChMA 4329)
- - Introduction to Research (ITR 4307)
- - Computer modeling of physical processes
- - Molecular spectroscopy (MS 3217)
- - Solid fuel cells (SFC 4329)
- - Physics of Atomic and Spectroscopy (PhOAS 3205)
- - Atomic physics and spectroscopy (APhS 3213)
- - Radiation physics (RPh 3219)
- - Electricity and Magnetism (EM 2205)
- - Thermodynamics (TD 3338)
- - Methodological basics of solving of problems of middle course (MBSPMC 3203)
- - Methodological basics of school physics course of high school (MBSPCHS 3203)
- - Pedagogical Technology of Developmental Training (PTDT 4305)
- - Modification of properties of functional materials by an ionizing radiation (MPFMIR 4326)
- - Interaction of ionizing radiation with matter and track technologies (IIRMTT 3221)
- - Physics of solar cells (PhSC 3216)
- - Integration of natural science disciplines (CMS 3201)
- - Radiation physics (RPh 4301)
- - Microelectronics (ME 4302)
- - Methods for solving Olympiad and non-standard tasks (MSONT 4306)
- - Organization of project activities in physics (OPAM 4307)
- - Physics (Phys 2205)
- - Physics of natural phenomena (PhNPh 4205)
- - Elementary mathematics (EM 1212)
- - Basics of scientific research
- - Electrical engineering and electronics (EE 2214)
- - Physical Optics (PhO 2211)
- - Molecular Physics and Thermodynamics (MPhT 2203)
- - Computer modelling of physical processes
- - Technology of solving physical tasks (ToSPhT 4306)
- - Methodological basics of solving of problems of school physics of middle and older courses.
- - Theoretical basics of school physics of middle and older courses.
- - Electrical and Electronics (EE 3206)
- - Semiconductor physics
- - Dosimeters of ionizing radiation
- - Plasma Physics (PPh 4303)
- - Ultrasonic Flaw Detection (UFD 4331)
- - Technique of school experiment
- - Electromagnetism
- - General physics (GF 4201)
- - Theory of electromagnetic field
- - IR and Raman spectroscopy (IRRS 4326)
- - Integration of natural science disciplines
- - Theory and methods of teaching physics (TMTPh 4225)
- - The physics of ionic crystals (TPhIC 4317)
- - Nuclear physics and elementary particles (NPhEP 3219)
- - Physics of ion-beam technology (PhIBT 4331)
- - Spectroscopy Technique and momentum spectroscopy (TSMS 3225)
- - Quantum mechanics (QM 3214)
- - Physics
- - Methods of teaching of physics (MTPh2201)
- - New approaches to learning and assessment at school (NALASh 3208)
- - Pedagogical Technology of Developmental Training
- - Methods of teaching children with PLO in inclusive education
- - Integration of natural science disciplines (INSD 3208)
- - Integration of natural science disciplines (INSD 3201)
- - Alternative energy (AE 4305)
- - Computer design of functional materials (CDFM 4331)
- - Mechanics (Meh 1204)
- - Quantum mechanics (QM 3211)
- - Physical English
- - Integration of natural science disciplines
- - Statistical physics and thermodinamics (SPhT 3215)
- - Methods of research and production of nanomaterials (MRPN 3318)
- - Fundamentals of physics of STEM education at school
- - Vacuum Technology (VT 3216)
- - Statistical physics and thermodynamics
- - Adaptation of program content for children with SEN
- - Radiation physics
- - Mechanics
- - Mathematical analysis I
- - Computer modeling of physical processes with elements of artificial intelligence
- - Mathematical analysis II
- - Mechanics
- - Theoretical foundations of the school physics course and methods for solving physical problems
- - Condensed-matter physics (CMPh 3322)
- - Optics (Opt 3210)
- - Modeling of physical properties of nanomaterials (MPhPN 4320)
- - Quantum chemistry (QCh 3214)
- - Physics and chemistry of nanoclusters (PhCN 4328)
- - Solar cells design (SCD 3318)
- - Physics of photoelectric converters (PhPhC 3221)
- - Methods of research and production of nanomaterials (MRPN 4304)
- - Organic and thin-film solar cells (OTSC 4326)
- - Optics and metrology of solar cells (OMSC 4330)
- - Classical mechanics
- - Functional materials for power industry and quantum electronics
- - Vacuum ultra violet spectroscopy
Master (scientific-pedagogical):
2013:- - Cathodochromic materials
- - Basics of Crystallography (OKG 5309)
- - Crystallography and structural analysis (KSA 5308)
- - Nanostructures and nanoclusters (NN 5212)
- - Dosimetric materials (DM 5305)
- - Basics of Crystallography (BCG 5206)
- - Nanostructures and nanoclusters (NN 5206)
- - Methods of preparation of nanomaterials (MPN 5208)
- - Cathodochromic materials (CChM 5308)
- - Transformation of energy in the scintillator and dosimetric materials (ТECDM 5307)
- - Photo - cathodochromic materials (FTM 5212)
- - Physics of low-dimensional systems (PLDS 5306)
- - Basics of Hydrogen Energy (BHE 5330)
- - Method of forming research skills for students (MFRSS 5302)
- - Application of functional nanomaterials (AOFN 5223)
- - Physics of low-dimensional systems (PLDS 5222)
- - Nanostructures and nanoclusters (Nano 5214)
- - Basics of alternative and renewable energy (BARE 5204)
- - Transfer of energy of electron excitations in scintillators and dosimeters (TEEESD 5304)
- - Spectroscopy (Spec 5205)
- - Luminescence of Crystal-phosphors (LCPh 5204)
- - Band theory of solids (BTS 5302)
- - Theoretical and methodical bases of teaching and upbringing in physics (TMBTUPh 5303)
- - Optical properties of nanostructures (OPN 5313)
- - Solar Energy (SE 5313)
- - Solid oxide fuel cells (SOFS 5310)
- - Modern physical practicume
- - Trends in physical science. Physical and energy research.
- - Luminescence of Complex Molecules (LCM 5208)
- - Didactics of solving experi-mental physical problems
- - Evaluation of learning outcomes in the educational process in physics
- - Trends in physical science. Methods of spectral analysis.
- - Modern physical practicume in high school
- - Trends in physical science. Track technologies in the development of nanomaterials with special properties.
- - Teaching methods for solving basic problems in physics
- - Fundamentals of fusion energy
- - Physics of dosimeters and scintillators (PhDS 5314)
- - Radiation Physics of Solids (RPhS 5303)
- - Innovative educational technologies in teaching physics (IETTPh 6307)
- - Organization of scientific pedagogical research in physics teaching (OSPRPhT 6304)
- - Pedagogical design of educational materials in physics (PDEMPh 6306)
- - Methodology of solving problems in physics of increased complexity (MSPPhIC5204)
- - Hydrogen Energy (HE 5310)
- - Renewable Energy Technologies
- - Smart technologies in the educational process in physics
- - Interdisciplinary integration of sciences in the educational process in physics
- - The scientific foundations of the design of the educational process in physics
- - Quantum chemical modeling (QChM 5212)
- - Methodology of work with gifted children in teaching physics (MWGChTPh 6305)
