Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
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FKA 3289 | Computer Methods of Physics | төртінші курс | 3 | 90 | 1 | 1 | 0 |
In a complex operating environment, application packages that process texts, perform graphic visualization of information. Students learn to solve physics problems, work with it based on the help of a computer, use various tools by gaining experience when solving complex problems from different departments of physics, use computer methods when solving physics problems, modeling physical processes, and processing information.
Working in a team (coaching); performance of joint activities (report, project, task resolution); Preparing and conducting an oral presentation.
1 | PON 1- knows the methods and algorithms of computer modeling of physical phenomena; |
2 | PON 2 - uses the theory and methods of computer modeling in the independent organization and conduct of physical workshops, all types of experience, computer modeling of physical phenomena, development of computer models in accordance with modern requirements; |
3 | PON 3- can use computer modeling methods and tools in solving problems encountered in research works in the field of teaching physics; |
4 | PON 4 knows the basic concepts and theoretical foundations of computer modeling necessary for orientation in the modern information space. |
Haftalık Konu | Evaluation Method | |
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1 | Introduction. History of development of computer technology. | |
2 | The impact of new physical ideas on the development of computer technology | |
3 | Operating systems and operating software. Typical operating systems. Files, file system. | |
4 | Operational interface, basic commands. | |
5 | Interrelationship of physics with computer technology. Development of modern computer technology. Computer programs. | |
6 | A computer in the laboratory. Analytical calculation by computer. | |
7 | An introduction to computational experimental techniques. | |
8 | Computer processing of physical experiment results. | |
9 | Computational physics. Subject of computational physics. Calculation of definite integrals, differential equations. | |
10 | Test method, calculation method, model method of solving physical problems | |
11 | Optimization method. Last difference method. Monte Carlo method. | |
12 | Mathematical modeling of physical processes. Modeling of physical problems. Simulation modeling of physical phenomena. | |
13 | Methods of computer experiments in theoretical physics. | |
14 | The principle of creating moving images. Work with applied software packages in physics. | |
15 | Calculation problems of different types. Experimental problems. Graphical reports |
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. Сарыбаева Ә.Х., Раманкулов Ш.Ж.Мектеп физика курсындағы компьютерлік модельдеу және эксперимент. Оқу құралы. Шымкент,-2018. -198б. | |
2 | 2. Р. В. Майер. Решения физических задач в электронных таблицах Excel, 2016. – 100с. | |
3 | 3. А. А. Исахов. Физикалық процестерді математикалық және компьютерлік моделдеу практикумы. Оқу құралы.. -2015. – 150б. | |
4 | 1. Г.К.Орманова,Б.С.Уалиханова. Оптика тарауы бойынша зертханалық жұмыстар. 2015. – 110б. | |
5 | 2. Ю.Н. Харитонов. Использование интернет технологий в курсе общей физики, 2020. – 120с. |