Physics of molecular systems
Course: Physics and Astronomy
Structural unit: Faculty of Physics
Title
Physics of molecular systems
Code
ДВА. 02.20
Module type
Вибіркова дисципліна для ОП
Educational cycle
Third
Year of study when the component is delivered
2018/2019
Semester/trimester when the component is delivered
4 Semester
Number of ECTS credits allocated
4
Learning outcomes
PLO-04. Plan and perform experimental and / or theoretical research in physics (astronomy) and related interdisciplinary fields using modern tools, critically analyze the results of their own research and the results of other researchers in the context of the whole complex of modern knowledge on the research problem.
PLO-07. Deeply understand the general principles and methods of natural sciences, as well as the methodology of scientific research, be able to apply them in their own research in physics (astronomy) and in teaching practice.
Form of study
Distance form
Prerequisites and co-requisites
Know - mechanisms of molecular and intermolecular interactions, physical bases of structure and functioning of biomolecules, mechanisms of energy migration in biostructures, physics of proteins, nucleic acids and enzymes, conformational properties of macromolecules and mechanisms of interaction between macromolecules in solution, kinetics of enzymatic reactions.
Be able to use physical methods of research of molecular systems, apply modern methods of quantum chemical calculations of electronic properties of organic molecules, including Hartree-Fock method, molecular orbitals, configurational interaction, electronic correlation, use modern programs to calculate electronic characteristics of molecules mainly and excited states.
Course content
studied: structure, properties, mechanisms of interaction and energy exchange of molecular systems. Particular attention is paid to the development of modern methods of quantum chemical calculations and software packages where they are implemented.
Recommended or required reading and other learning resources/tools
1. Kostyuk PG, Zima VL, Magura IS, Shuba MF Biophysics. – K.Oberih, 2001. - 503p.
2. Karasek B. Biophysics.Technics and Applications. NYresearch- 2008. 238 p.
3.Mishra N., Jyoti A. Cutting Edge Techniques in Biophysics. Biochemistry and Cell Biology: From principles to Applications.Bentham Books. 2019.
4. Kramer R., Ziegler Ch. Membrane Transport Mechanism. 3D structure and Beyond. Springer Series in Biophysics. Springer. 2014. 286 p.
5.Sedky A. Biophysics An Introduction: Muscles, Nervous System, Living Cells. - Noor Publishing, 2016. -173 p.
Planned learning activities and teaching methods
The total amount of 120 hours, including:
lectures - 18 hours;
practical classes - 4 hours;
consultations - 2 hours;
independent work - 96 hours.
Assessment methods and criteria
- semester assessment:
1. Oral examination: PH 1.1, 3.2-10 points / 5 points
2. Protection of reports of practical works: RN 2.1-2.3, 3.2 - 10 points / 5 points
5. Protection of reports of practical works 2: РН 2.1-2.3, 3.2 - 10 points / 5 points
6. Defense of the abstract: RN 1.2, 3.1 - 10 points / 5 points
- final assessment: in the form of an exam
Language of instruction
ukrainian
Lecturers
This discipline is taught by the following teachers
Oksana
Petrivna
Dmytrenko
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