Differential equations and numerical methods
Course: Optotechnique
Structural unit: Faculty of Physics
Title
Differential equations and numerical methods
Code
ОК 15.
Module type
Обов’язкова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2022/2023
Semester/trimester when the component is delivered
3 Semester
Number of ECTS credits allocated
6
Learning outcomes
To know and understand the basic concepts of metrology, measurement theory, mathematical and computer modeling, modern methods of processing and evaluating the accuracy of the measurement experiment.
To understand the application of methods and techniques of analysis, design and research, as well as the limitations of their use.
To be able to apply basic mathematical knowledge used in physics, optics and laser physics: analytical geometry, linear algebra, mathematical analysis, differential and integral equations, probability theory and mathematical statistics, methods of mathematical physics, theory of function of complex variables, mathematical modeling.
Form of study
Full-time form
Prerequisites and co-requisites
To know basic concepts of mathematical analysis and linear algebra.
To be able to perform basic operations of integration and differentiation, calculation of limits, analyze the properties of functions, decompose functions into power series.
To be able to operate by elementary methods of linear algebra, calculation of determinants, solving systems of linear equations
Course content
Ordinary differential equations of the first order. Cauchy's problem. Linear differential equations of order higher than the first. Linear boundary value problems, Sturm-Liouville problem. Systems of differential equations. Stability theory. Asymptotic methods for solving differential equations.
Recommended or required reading and other learning resources/tools
1. A.M. Samoilenko, S.A. Kryvosheya, M.O. Perestyuk, Differential equations in problems, K., Lybid, 2003.
2. S.A. Kryvosheya, M.O. Perestyuk, V.M. Burym, Differential and integral equations, K., Lybid, 2004.
3. Makarets, M.V., & Reshetnyak, V.Y. (1995). Ordinary Differential Equations and Calculus of Variations.
4. Momot A.I., Olikh O.Ya. Mathematical modeling. Practical lessons. Part 1.
5. P.P. Golovach, O.F. Kalaida, Collection of problems on differential and integral equations, K., 1997.
6. S.M. Yezhov Methods of calculations (K., Kyiv. University of Tet, 2001, 174 p.)
Planned learning activities and teaching methods
Lectures, practical classes, individual work.
Assessment methods and criteria
Oral questioning during lectures and practical classes, homework, modul control work, exam.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Andrii
Ivanovych
Lesiuk
Department of Physics of Functional Materials
Faculty of Physics
Faculty of Physics
Departments
The following departments are involved in teaching the above discipline
Department of Physics of Functional Materials
Faculty of Physics