Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
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KM 2273 | Classical Mechanics | Үшінші курс | 4 | 120 | 1 | 1 | 0 |
The discipline is a branch of theoretical physics of classical mechanics and examines the laws of motion and causes of motion of material bodies using Newton's equations of motion, the principle of variation, Lagrange, Hamilton, Hamilton-Jacobi equations, Poisson brackets, symmetric properties of space and time, conservation laws. Students formulate processes and phenomena in nature, technology, solve problems using the basic laws and principles of classical mechanics
Molecular physics, electricity and magnetism
Mathematics, Physics
narrative, exchange of ideas, discussion, problem methods, reporting.
1 | Forms the theoretical and methodological foundations of physics and teaching physics. |
2 | Learns the modern problems of the updated educational program |
3 | Forms innovative pedagogical and critical thinking of teaching physics |
4 | Plans, conducts a lesson and forms a thinking system using technology |
Haftalık Konu | Evaluation Method | |
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1 | Basic concepts (matter point, space-time, generalized coordinates and impulses, forces and inertia, inertial reference systems). | Ауызша |
2 | Concepts of mechanical state, principle of minimum effect (Hamilton's principle). | test |
3 | Galileo's principle of relativity. | Ауызша |
4 | Lagrange equations, Lagrange function, Hamilton function. | Жазбаша |
5 | Hamilton's system of canonical equations. | Ауызша |
6 | Laws of conservation. Conservation of energy, momentum and momentum. | Жазбаша |
7 | Relation of conservation laws with homogeneity of space, isotropy and homogeneity of time. | Сұрақ-жауап |
8 | Center of inertia and mechanical analogy. | презентация |
9 | Integration of motion equations. One dimensional movement. | Жазбаша |
10 | Determination of potential energy by the period of oscillation. | Ауызша |
11 | The induced mass, the motion in the central field. | Жазбаша |
12 | Kepler's calculation. | Ауызша |
13 | Collision of particles. Disintegration of particles, scattering of particles. | Жазбаша |
14 | Rutherford formula, small angle scattering. | Сұрақ-жауап |
15 | Weak vibrations. Arbitrary one-dimensional oscillations. Forced vibrations, vibrations of systems with multiple degrees of freedom. Molecular vibrations, damping vibrations, damping vibrations in the presence of resistance force (frictional force). | test |
PÇ1 | PÇ2 | PÇ3 | PÇ4 | PÇ5 | PÇ6 | PÇ7 | PÇ8 | PÇ9 | PÇ10 | PÇ11 | PÇ12 | PÇ13 | PÇ14 | PÇ15 | PÇ16 |
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Textbook / Material / Recommended Resources | ||
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1 | 1. Жуковский Н. Е.-Теоретическая механика В 2 Т. | |
2 | 2. Теоретическая физика. Т. 1: Механика, Ландау Л. Д., Лифшиц Е. М., 2017 | |
3 | 3. Журавлев Е. А.-Теоретическая механика. Курс лекций. Учебное пособие для вузов-М.:Издательство Юрайт,2019 | |
4 | 4. Журавлев Е. А.-Техническая механика: теоретическая механика. Учебное пособие для СПО-М.:Издательство Юрайт,2019 | |
5 | 5. Самсонов В.А. Конспект лекций по механике. М.: МГУ, 2015 | |
6 | 6. Лукашевич Н. К.-Теоретическая механика 2-е изд., испр. и доп. Учебник для академического бакалавриата-М.:Издательство Юрайт,2019 С.М.Тарг. Краткий курс теоретической механики. М., 1964. | |
7 | 7. Чуркин В. М.-Теоретическая механика в решениях задач. Кинематика 2-е изд., испр. и доп. Учебное пособие для академического бакалавриата-М.:Издательство Юрайт,2019 | |
8 | 8. Черноусько Ф.Л., Акуленко Л.Д., Лещенко Д.Д. Эволюция движений твердого тела относительно центра масс. М.-Ижевск: Ижевский институт компьютерных исследований, 2015 |