Experimental methods in medical physics

Course: Physics

Structural unit: Faculty of Physics

Title
Experimental methods in medical physics
Code
ВК 6
Module type
Вибіркова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2021/2022
Semester/trimester when the component is delivered
8 Semester
Number of ECTS credits allocated
4
Learning outcomes
To know: physical foundations of experimental methods used in medical physics; the principle of operation of equipment used in laboratory work to illustrate experimental methods in medical physics. To be able to: use packages of mathematical programs when performing laboratory work; determine the possibilities and limitations of experimental methods used in medical physics; to find in the reference literature the appropriate parameters and characteristics that are necessary to perform experimental research. Demonstrate communication in dialogue with colleagues and target audience, conducting professional scientific discussions. Display and present the results of the research in writing in Ukrainian.
Form of study
Full-time form
Prerequisites and co-requisites
To know the basics of mathematical analysis, general physics and special courses to the extent appropriate to the level of qualification. To be able to apply previous knowledge of mathematical analysis courses, general physics and relevant special courses. To possess basic skills of mathematical transformations, logical thinking, as well as to have an interest in mastering certain sections of medical physics.
Course content
Application of X-ray diffraction analysis in medical physics. Atomic force microscopy in biomedical research. Electron microscopy. Measurement of absorption and emission spectra of biological molecules. Measurement of the vibrational structure of biomolecules. Study of the structure and optical properties of metallic, semiconductor nanoparticles. Study of the structure and optical properties of carbon nanoparticles. Study of complexation of metal, carbon nanoparticles with biomolecules. Physical bases of the method of analysis of structure and component composition of samples based on measurement of IR absorption spectra. Manifestations of features of structure of liquids with intermolecular hydrogen bond in IR absorption spectra. Investigation of the features of the cluster structure of water at different temperatures by IR spectroscopy.
Recommended or required reading and other learning resources/tools
1.Medical Physics: Handbook. - Vol 1. Dynamical and statistical models / L.A. Bulavin, L. Grechko, L.B. Lerman, O.V. Chalyy, ed. L.A. Bulavin - K .: STPC “Kyiv University,” 2011. - 485 p. 2.Medical Physics: Handbook. - Vol 2. An experiment in medical physics / L.A. Bulavin, O.Yu. Aktan, Yu.F.Zabashta, S.M. Perepelytsya, O.S. Svechnikova, S.P. Senchurov, ed. Bulavin LA - K .: STPC “Kyiv University,” 2011. - 368 p.
Planned learning activities and teaching methods
Laboratory classes
Assessment methods and criteria
Ongoing assessment: survey before the start of laboratory work and in the process of its defense. The final grade for the educational component as a whole, the final form of control for which the test is set, is defined as the sum of grades (points) for all successfully assessed learning outcomes during the semester (grades below the minimum threshold are not added to the final grade) and grades obtained during offset. The form of the test is to provide a written report on the laboratory work performed, followed by an oral interview. The maximum number of points that can be obtained by the student during the test is 20 points on a 100-point scale. The credit score cannot be less than 10 points to get an overall positive score for the course. Systematic work during the semester is a prerequisite for admission to the test. An applicant is not admitted to the test if he/she scored less than 50 points during the semester.
Language of instruction
Ukrainian

Lecturers

This discipline is taught by the following teachers

Iryna Yuriivna Doroshenko
Department of Physics of Functional Materials
Faculty of Physics
Olena Leonidivna Pavlenko
Department of Physics of Functional Materials
Faculty of Physics
Yuriy Yevhenovych Grabowski
Department of Physics of Functional Materials
Faculty of Physics
Maxym Myhaylovych Lazarenko
Molecular Physics Department
Faculty of Physics
Andriy Vasylovysh Brytan
Molecular Physics Department
Faculty of Physics
Tymofii Yuriyovych Nikolaienko
Molecular Physics Department
Faculty of Physics
Konstantin Volodymyrovych Cherevko
Molecular Physics Department
Faculty of Physics