Physics of nuclei and elementary particles
Course: Optotechnique
Structural unit: Faculty of Physics
Title
Physics of nuclei and elementary particles
Code
ОК 12.
Module type
Обов’язкова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2021/2022
Semester/trimester when the component is delivered
6 Semester
Number of ECTS credits allocated
5
Learning outcomes
- Understand the broad interdisciplinary context of the specialty, its place in the theory of knowledge and evaluation of objects and phenomena - Be able to use the principles and methods of reproduction of reference quantities in the construction of reference measuring instruments (standard samples, reference transducers, reference measuring instruments) - Know and understand modern theoretical and experimental research methods to assess the accuracy of the results - Know, understand and be able to apply at a basic level the basic principles of general and theoretical physics, including classical, relativistic and quantum mechanics, molecular physics and thermodynamics, electromagnetism, wave and quantum optics, atomic physics and atomic nucleus to establish, analyze, interpret, explain and classify the essence and mechanisms of various physical phenomena and processes to solve complex specialized problems and practical problems in physics, optics and laser physics.
Form of study
Full-time form
Prerequisites and co-requisites
1. Successful mastering of all previous normative basic courses of physics: "Mechanics", "Molecular Physics", "Electricity", "Optics". 2. Be able to solve problems in basic physics courses. 3. Have basic computer skills to search for information on the Internet.
Course content
1. determination of basic nuclear physical quantities and units of their measurement; 2. know the structure of atomic nuclei and their general properties; 3. general properties of nucleon-nucleon nuclear forces and bases of their description; 4. know the classification of models for describing the structure of atomic nuclei and general methods for describing single-particle and collective phenomena in nuclei; 5. radioactive transformations of atomic nuclei and their types, as well as features of electromagnetic transitions in nuclei
Recommended or required reading and other learning resources/tools
1. І. М. Каденко, В.А. Плюйко В.А. Фізика атомного ядра та частинок. – Киев: ВПЦ Київ. унів., 2019.-480 с. 2. Л. А. Булавін, В. К. Тартаковський. Ядерна фізика. – Київ: Знання, 2005. 3.Б. Ю. Денисов, В. А. Плюйко. Проблеми фізики атомного ядра і ядерних реакцій. – Київ: ВПЦ Київ. унів., 2013. 4. К. Н. Мухін. Експериментальна ядерна фізика. Т. ІІ. Фізика елементарних частинок. 1983. – 376 с.
Planned learning activities and teaching methods
Lectures, lecture demonstrations, practical classes
Assessment methods and criteria
Evaluation is carried out according to the module-rating system, which consists of 3 content modules. The knowledge assessment system includes current, modular and semester control of knowledge. The results of students' learning activities are evaluated on a 100-point scale. Forms of current control: assessment of tests, colloquium, oral answers during practical classes, written and oral independent tasks. The student can receive a maximum of 10 points for intermediate and final tests, 20 points for oral answers during practical classes, written and oral independent assignments and 20 points for the colloquium. The final control is conducted in the form of an exam, during which the student can get a maximum of 40 points. The condition for admission of a student to the exam is the fulfillment of two conditions: obtaining a minimum of 36 points during the semester and obtaining credit for the "Workshop on the physics of nuclei and elementary particles."
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Volodymyr
Andriyovich
Plujko
Department of Nuclear Physics and High Energies
Faculty of Physics
Faculty of Physics
Departments
The following departments are involved in teaching the above discipline
Department of Nuclear Physics and High Energies
Faculty of Physics