Intermolecular interaction
Course: Medical physics
Structural unit: Faculty of Physics
Title
Intermolecular interaction
Code
ОК 7
Module type
Обов’язкова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2023/2024
Semester/trimester when the component is delivered
1 Semester
Number of ECTS credits allocated
6
Learning outcomes
To know the classical theory of van der Waals interaction.
To know the quantum theory of van der Waals interaction.
To be able to analyze the data of MK, IR, CR and NMR spectra of gases and liquids, data on the second virial coefficient, the coefficient of shear viscosity of gases and the compressibility modulus of solid bodies in order to obtain information about intermolecular interaction (using the example of simple systems).
Form of study
Full-time form
Prerequisites and co-requisites
1. Know the laws of classical and quantum mechanics, electrodynamics and statistical physics.
2. To be able to apply the knowledge gained from the courses of mathematical analysis, differential and integral equations, mathematical physics.
3. To have the skills to apply the methods of thermodynamics and molecular physics.
Course content
The subject of the course is classical and quantum theory of intermolecular interaction, spectral and thermophysical methods of studying intermolecular interaction. The goal is to acquire systematic knowledge of the theory of intermolecular interaction and master the methods of obtaining information about intermolecular interaction from spectroscopic and thermophysical experiments. The educational task consists in studying the classical and quantum theory of intermolecular interaction; spectral (microwave, infrared spectroscopy, Raman spectroscopy, NMR spectroscopy) and thermophysical methods of intermolecular interaction research.
Recommended or required reading and other learning resources/tools
1. Micha D. Molecular Interactions: Concepts and Methods. – Wiley, 2019. – 402 p.
2. Kjellander R. Statistical Mechanics of Liquids and Solutions: Intermolecular Forces, Structure and Surface Interactions. Volume I. – Apple Academic Press, 2019. – 526 p. 3. Grigor'ev A.M. Intermolecular interactions in applications and tasks. Navchalno-methodical help book. – K.: 2013. – 77 p.
4. Sernelius Bo E. Fundamentals of van der Waals and Casimir Interactions. – Springer International Publishing, 2018. – 418 p.
5. Butt H.-J., Kappl M. Surface and Interfacial Forces. – Wiley-VCH, 2010. – 443 p.
6. Israelachvili J.N. Intermolecular and surface forces. Third Edition. – Academic Press, 2011. – 674 p.
Planned learning activities and teaching methods
Teaching methods: lectures, practical classes, consultations. Total volume 180 hours. , including: lectures - 44 hours, practical classes - 16 hours, consultations - 2 hours, individual work - 120 hours.
Assessment methods and criteria
semester assessment:
1. Checking homework during the first content module - 5 points/ 3 points
2. Modular control work 1 – 15 points/ 9 points
3. Checking homework during the second content module - 5 points/ 3 points
4. Modular control work 2 – 15 points/ 9 points 5. Checking homework during the third content module - 5 points/ 3 points
6. Modular control work 3 – 15 points/ 9 points
Module 1: evaluation for the completion of homework and for the modular control work on the topic "Classical theory of intermolecular interaction" - 20 points
Module 2: evaluation for the completion of homework and for the modular control work on the topic "Quantum theory of intermolecular interaction" - 20 points
Module 3: evaluation for the completion of homework and for the modular control work on the topic "Experimental methods of intermolecular interaction research" - 20 points final evaluation in the form of an exam.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Departments
The following departments are involved in teaching the above discipline