Special scientific seminar on physics

Course: Nuclear Power Engineering

Structural unit: Faculty of Physics

Title
Special scientific seminar on physics
Code
ВБ 4.2
Module type
Вибіркова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2018/2019
Semester/trimester when the component is delivered
3 Semester
Number of ECTS credits allocated
3
Learning outcomes
Formation of students' generalizations of high energy physics and nuclear physics through a set of knowledge close to the topics of master's research, to form approaches to the methodology of modern scientific research, professional application of theoretical knowledge in professional activities, preparation for a comprehensive physics exam for masters.
Form of study
Full-time form
Prerequisites and co-requisites
1. Know the basic postulates of classical and relativistic mechanics and special theory of relativity; physical principles of operation of ionizing radiation detectors; characteristics of ionizing radiation; the principle of operation of accelerators. 2. Be able to present a master's thesis; clearly answer the questions submitted to the comprehensive state exam in physics; to orient in questions of modern physics. 3. Have an idea of physical phenomena and processes in subatomic structures
Course content
Modern approaches to experimental research and fundamental issues of high-energy physics and nuclear physics, as well as the formation and basic physical characteristics of elementary particles and their structures are considered. To acquaint students with modern achievements in the field of high energy physics and nuclear physics, namely in the study of interaction forces, structure and properties of particle interaction.
Recommended or required reading and other learning resources/tools
1 Stechenko DM etc. Research Methodology: Textbook. - К .: Знання, 2005. - 309 с. 2 Mokin BI, Mokin OB Methodology and organization of scientific research. - Vinnytsia: VNTU, 2014. - 180 p. . 3 MarkusSteck, Yuri A. Litvinov. Heavy-ion storage rings and their use in precision experiments with highly charged ions. Progress in Particle and Nuclear Physics, 115, November 2021, 103811. 4 G.Bonomi, P.Checchia, M.D’Errico, D.Pagano, G.Saracino. Applications of cosmic-ray muons. Progress in Particle and Nuclear Physics, Volume 119, May 2020, 103768. 5 Shuang-shi Fang, Bastian Kubis, Andrzej Kupść. What can we learn about light-meson interactions at electron–positron colliders? Progress in Particle and Nuclear Physics, Volume 120, September 2021, 103884. 6 M.González-Alonso, O.Naviliat-Cuncic. New physics searches in nuclear and neutron β decay. Progress in Particle and Nuclear Physics, Volume 104, January 2019, p. 165 - 223.
Planned learning activities and teaching methods
Seminars - 30 hours. Independent work - 60 hours.
Assessment methods and criteria
Semester assessment: (max / min) Survey during classes, preparation of reports on nuclear energy - 60 points / 36 points The test is made in writing. The maximum number of points that can be obtained by a student during the test is 40. To obtain an overall positive grade in the discipline, the grade for the test may not be less than 24 points. A student is not admitted to the test if he / she scored less than 36 points during the semester.
Language of instruction
Ukrainian

Lecturers

This discipline is taught by the following teachers

Department of Nuclear Physics and High Energies
Faculty of Physics
Oleg Anatoliyovych Bezshyyko
Department of Nuclear Physics and High Energies
Faculty of Physics