| Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
|---|---|---|---|---|---|---|---|
| FOESHA 3285 | Methods of solving Olympiad problems in physics | Үшінші курс | 5 | 150 | 1 | 2 | 0 |
The general physics course considers methods of solving Olympic problems, effective use of mathematical devices and physical formulas and laws in solving problems. As a result of studying the subject, students learn to use physical and mathematical methods in solving complex problems in physics, to use time effectively in solving various tasks, and to use non-standard problems to develop their creative abilities.
Modern physics
Mechanics, Molecular physics
Working in a team (coaching); performance of joint activities (report, project, task resolution); Preparing and conducting an oral presentation.
| 1 | PON 1 - determines the content, types, laws, principles, technologies of research work; |
| 2 | PON 2 - shows the consideration of the basic knowledge related to the field of physics in the organization of research work; |
| 3 | PON 3 - applies knowledge of fundamental laws and theories of physics in research works. |
| 4 | PON 4 - conducts experimental studies of physical phenomena, processes and physical properties of matter and explains state parameters; |
| 5 | PON 5 - creation of mathematical models, use of theoretical and numerical methods of research of physical phenomena and processes. |
| 6 | PON 6 - knows how to observe, classify, compare, describe and analyze physical objects; |
| 7 | PON 7 - organizes the improvement and management of the plan of physical scientific research; |
| 8 | PON 8 - processing of received scientific research results and using computer programs. |
| 9 | PON 9 - determines the purpose, tasks, stages, specific methods of activities aimed at developing the basic competence of learners; |
| 10 | PON 10 - compiles various lesson notes on the content, methods and technologies of teaching physics; |
| 11 | PON 11 - explains his methodological literacy with the results of the methodological portfolio defense on the basis of reflection. |
| Haftalık Konu | Evaluation Method | |
|---|---|---|
| 1 | Basic definitions. A steady, steady alternating motion. Relativity of motion. Census system and methods of determination. Dynamics. Laws of dynamics. Work and mechanical energy. Movement along a circle. Momentum of a body and impulses of a system of bodies. Elastic and inelastic collisions. Statics. Equilibrium conditions of bodies. Center of mass. Center of gravity. Hydrostatics. Pascal's law. Archimedes' law. Molecular physics. Fundamentals of molecular kinetic theory in gas. Gas laws. Mendeleev-Clapeyron equation. Graph of gas processes. Thermodynamics. Laws of conservation of energy. Phase transitions. Surface tension. Copillar phenomenon. Electrostatics. Electrostatic field strength and potential. Capacitors. Capacitor system. Energy of charged particles in an electric field. Laws of direct current. Ohm's law. Joule-Lenz law. Kirchhoff's laws. Electromotive force. Vibrations. Harmonic vibrations. Equation of oscillations. Mechanical and electrical vibrations. Add vibrations. Resonance phenomena. Optics. Atomic and nuclear physics. Current optics. Interference. Diffraction. Geometric optics. Laws of refraction. Thin lens pattern. Flat and spherical mirror. Optical systems Practice solving complex physical problems. Mechanics. Molecular physics. Electricity and magnetism. | |
| 2 | Dynamics. Laws of dynamics. Work and mechanical energy. Movement along a circle. Momentum of a body and impulses of a system of bodies. Elastic and inelastic collisions. | |
| 3 | Statics. Equilibrium conditions of bodies. Center of mass. Center of gravity. Hydrostatics. Pascal's law. Archimedes' law. | |
| 4 | Molecular physics. Fundamentals of molecular kinetic theory in gas. Gas laws. Mendeleev-Clapeyron equation. Graph of gas processes. | |
| 5 | Thermodynamics. Laws of conservation of energy. Phase transitions. Surface tension. Copillar phenomenon. | |
| 6 | Electrostatics. Electrostatic field strength and potential. Capacitors. Capacitor system. Energy of charged particles in an electric field. | |
| 7 | Laws of direct current. Ohm's law. Joule-Lenz law. Kirchhoff's laws. Electromotive force. | |
| 8 | Vibrations. Harmonic vibrations. Equation of oscillations. Mechanical and electrical vibrations. Add vibrations. Resonance phenomena. | |
| 9 | Optics. Atomic and nuclear physics. Current optics. Interference. Diffraction. Geometric optics. Laws of refraction. Thin lens pattern. Flat and spherical mirror. Optical systems | |
| 10 | Practice solving complex physical problems. Mechanics. Molecular physics. Electricity and magnetism. |
| PÇ1 | PÇ2 | PÇ3 | PÇ4 | PÇ5 | PÇ6 | PÇ7 | PÇ8 | PÇ9 | PÇ10 | PÇ11 | PÇ12 | PÇ13 | PÇ14 | PÇ15 |
|---|
| Textbook / Material / Recommended Resources | ||
|---|---|---|
| 1 | 1. Электр және магнетизм курсы бойынша есептер жинағы. 2016. К.М. Туреханова | |
| 2 | 2. Физика есептерін шығару әдістемесінің негіздері. -2016. Ә.Х. Сарыбаева | |
| 3 | 3. Курс лекций по теории и методике обучения физике в средней школе. Учебное пособие. 2016. Е.А.Румбешта | |
| 4 | 1. Атомдық физика.Оқулық. К. Б. Жұманов, Г. Н. Шынықұлова, 2016. | |
| 5 | 2. Оптика и атомная физика. Учебное пособие. Бегимов Т.Б., Исмагулова М.Ш., Мухамедгалиева М.А, 2012 | |
| 6 | 4. Physics: Textbook. - G. Sh. Omashova, Kh K. Abdrakhmanova, N. S. Saidullayeva, Zh.B. Umurzakova, 2016. |