| Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
|---|---|---|---|---|---|---|---|
| MFKGZhUA 3293 | Methodology of Organization of Scientific Project Works in School Physics Course | Үшінші курс | 8 | 240 | 1 | 0 | 4 |
The discipline teaches students to identify methodological features of the organization of research work of students in the subjects of the school physics course. As a result, students master project tasks in physics, sample lessons with project tasks, develop methodological recommendations for the preparation of project tasks, learn to solve problems designed in the form of an important and expected final product and use them in solving their professional tasks
Fundamentals of physics problem solving methodology
Physics teaching methodology
narrative, exchange of ideas, discussion, problem methods, reporting.
| 1 | Uses knowledge in the field of teaching physics and the methodology of recognizing physical phenomena of nature; |
| 2 | acquires the skills to acquire new knowledge necessary for daily professional activity and continuing education; |
| 3 | Determines success criteria for evaluating achievements in the field of physics education together with students; |
| 4 | Able to give a lecture on the basics of physics, organize a discussion and, having deeply mastered the subject area, evaluates one's ability and interests, can coordinate it with the demands of the society, uses the results of modern research in his professional activities; |
| 5 | Learns modern ways of analyzing scientific-pedagogical researches, evaluates and checks the relations between theory and empirical; |
| 6 | In the process of independently solving pedagogical tasks, monitors the results of research, plans and implements scientific research works; |
| Haftalık Konu | Evaluation Method | |
|---|---|---|
| 1 | Mechanical movement. Space and time. Numbering system. Law of motion. Angular velocity and angular acceleration during curvilinear motion. | Ауызша |
| 2 | Mechanical movement. Space and time. Numbering system. Law of motion. Angular velocity and angular acceleration during curvilinear motion. | Жазбаша |
| 3 | Newton's laws. Mass. Strength. Types of forces in mechanics. Inertial counting systems. Galilean transformations. Concept of absolute solid. Torque. Moment of inertia. | Ауызша |
| 4 | Energy. Work. Power. Impulse. Law of conservation of mechanical energy. Law of conservation of momentum. | Жазбаша |
| 5 | An ideal and viscous liquid. Bernoulli's equation. Laminar and turbulent flow of liquids. Stokes expression. | презентация |
| 6 | Fundamentals of molecular kinetic theory. Gas pressure from the point of view of molecular kinetic theory. An ideal gas. Ideal gas laws. Gas equation of state. | test |
| 7 | The first principle of thermodynamics. Applying it to isoprocesses. Reversible and irreversible thermal processes. Carnot cycle. Second principle of thermodynamics. | Ауызша |
| 8 | Law of conservation of electric charge. Coulomb's law. Field strength. Principle of superposition. Gauss' theorem. Potential. Conductors in an electrostatic field. Electrical capacity. | Жазбаша |
| 9 | Dielectrics in an electrostatic field. Types of dielectric. The dielectric constant of substances depends on its temperature. Field energy and its density. | Ауызша |
| 10 | Direct current. Current strength. Current density. Electromotive force and voltage. Ohm's law. Impedance of the emitters. Joule-Lenz law. Electric current in metals, vacuum and gases. | Жазбаша |
| 11 | The phenomenon of electromagnetic induction (Faraday's experiments). Rotation of a conductive frame in a magnetic field. Inductance. The phenomenon of self-induction and mutual induction. Transformers. Magnetic field energy. | |
| 12 | Mechanical and electromagnetic vibrations and waves. | Сұрақ-жауап |
| 13 | Interference of light waves. Interferometers. Diffraction of waves. Huygens-Fresnel principle. Light dispersion. | презентация |
| 14 | Atomic models of Thomson and Rutherford. Bohr's postulates. Frank and Hertz experiments. Elements of quantum mechanics. | Ауызша және жазбаша |
| 15 | Elements of nuclear physics. Size, composition and charge of the atomic nucleus. Mass defect and binding energy. Nuclear spin and magnetic moment. Radioactivity. | test |
| PÇ1 | PÇ2 | PÇ3 | PÇ4 | PÇ5 | PÇ6 | PÇ7 | PÇ8 | PÇ9 | PÇ10 | PÇ11 | PÇ12 | PÇ13 | PÇ14 | PÇ15 | PÇ16 |
|---|
| Textbook / Material / Recommended Resources | ||
|---|---|---|
| 1 | 1.Намазбаев К.Т. Орта мектепте физиканы оқыту әдістемесі.2-бөлім. Оқулық. -2015. | |
| 2 | 2.Дейл Х.Шунк. Оқыту теориясы: Білім беру көкжиегі. Оқулық. -2019. | |
| 3 | 3.Сарыбаева Ә.Х., Раманкулов Ш.Ж. Мектеп физика курсындағы компьютерлік модельдеу және эксперимент. Оқулық. -2018 | |
| 4 | 4.Курс лекций по теории и методике обучения физике в средней школе. Учебное пособие. 2016. Е.А.Румбешта | |
| 5 | 5.K.N. Jumadillayev, Zh .K . Sydykova. Teachingmethodology of physics: Textbook. -2016 | |
| 6 | 6.Н.М. Ушакова. Методология и методы педагогического исследования.Учебное пособие. 2017 | |
| 7 | 7.А.А.Исахов. Физикалық процестерді математикалық және компьютерлік моделдеу практикумы. 2015 | |
| 8 | 8.Н.А. Константинов, Т.Н. Калугин, В.Б. Харатян. Практикум по методике решения физических задач. 2012. | |
| 9 | 9.Ғ.Қ. Жүсіпқалиева, А.А. Джумашева, Б.С. Құбаева. Мектепте физика курсын оқытудың теориясы мен әдістемесі.Оқу құралы. -2012. | |
| 10 | http://rmebrk.kz | |
| 11 | library.ayu.edu.kz |