Modern problems of physics

Course: Medical physics

Structural unit: Faculty of Physics

Title
Modern problems of physics
Code
ВБ2.1
Module type
Вибіркова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2021/2022
Semester/trimester when the component is delivered
3 Semester
Number of ECTS credits allocated
3
Learning outcomes
As a result of studying the academic discipline, the student should know: basic principles and laws of physics, their mathematical formulation and physical meaning; the main directions of modern physical research and the problems that physicists are working on; the main modern achievements of physics and their application in various fields of science, production and everyday life. be able: formulate the basic principles and write down the laws of physics, explain their physical meaning; analyze physical phenomena and perform calculations of the main types of atomic and molecular systems and their interaction with electromagnetic radiation, evaluate the accuracy of calculations. Work independently with educational and methodological and reference literature on modern physics.
Form of study
Distance form
Prerequisites and co-requisites
Connection with other disciplines. General courses – optics, electricity and magnetism, atomic physics, quantum mechanics.
Course content
The basic normative educational discipline "Modern problems of physics" is a component of the cycle of professionally oriented disciplines according to the list of training programs for specialists of the educational qualification level "master". The goal and task of the discipline is to master the basics of modern theoretical and practical knowledge of modern physics problems. This includes knowledge of the basic laws of theoretical physics, mastering the methods and principles of studying physics phenomena, as well as the results of modern experiments, performing measurements and solving problems.
Recommended or required reading and other learning resources/tools
1. D.A. Bulavin, D.A. Havryushenko, V.M. Sysoev. Molecular physics. K.: Znannia, 2006 (https://www.researchgate.net/publication/282125017_Molecular_Physics). 2. J. J. Kelly. Statistical Physics Using Mathematica. Ideal Spin-1/2 Paramagnetism. Statistical Mechanics of Ideal Two-Level Systems. http://www.physics.umd.edu/courses/CourseWare/StatisticalPhysics/ 3. D.A. Bulavin, D.A. Havryushenko, V.M. Sysoev. Critical phenomena in heterogeneous systems. K.: Center of Kyiv University, 1999 (https://www.researchgate.net/publication/296333033_Critical_phenomena_in_nonuniform_systems). 4. Fedorchenko A.M. Theoretical physics. - K., 1993, vol. 2.
Planned learning activities and teaching methods
The total volume is 90 hours, including: Lectures - 30 hours. Independent work - 60 hours
Assessment methods and criteria
Control is carried out according to the modular rating system. Content module 1 (ЗМ1) includes: 1. Interaction of radiation with matter 2. Widths and profiles of spectral lines. Content module 2 (ЗМ2) - topics: 1. Characteristics of laser radiation. 2. Application of the laser in modern experiments. Attending lectures and completing independent work tasks during the semester are mandatory for the exam. Forms of current control: evaluation of the results of studying the material of lectures and independent work of students. When assigning points for the module, the following are taken into account: - the quality of processing the lecture material, - knowledge and understanding - is checked during colloquiums and colloquium-control papers. - knowledge and understanding of the material, degree of student activity in the pre-lecture survey, quality of homework; - the quality of the student's independent work when performing appropriate tasks for independent work
Language of instruction
Ukrainian

Lecturers

This discipline is taught by the following teachers

Departments

The following departments are involved in teaching the above discipline