Workshop on molecular physics
Course: Physics
Structural unit: Faculty of Physics
Title
Workshop on molecular physics
Code
ОК 24.
Module type
Обов’язкова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2022/2023
Semester/trimester when the component is delivered
2 Semester
Number of ECTS credits allocated
3
Learning outcomes
Knowledge of the basic principles and laws of molecular physics, their mathematical formulation; mastering practical skills of using measuring instruments and experimental equipment; knowledge of general safety rules of the experimental research. Ability to estimate the orders of magnitude of the studied quantities, their accuracy and degree of reliability, calculate measurement errors and formulate conclusions; to work independently with educational, methodical, and reference literature on molecular physics.
Form of study
Full-time form
Prerequisites and co-requisites
The student must know the basic laws of thermodynamics and molecular physics, the basics of error theory, and data processing.
The student must be able to:
apply previous knowledge on the presentation of experimental data, rules for calculating measurement errors, calculation of derivatives, and integrals, and be able to graphically construct experimentally obtained dependences. Have basic skills in working with measuring instruments; searching and analysis of tabular data, working with software for data processing, and group work.
Course content
Determination of heat capacity of metals by the cooling method. Determination of heat capacity of a liquid. Determination of gas adiabatic index by the Kleman-Desorm method. Determination of gas adiabatic index by resonance method. Observations of Brownian motion, determination of Avogadro constant. Determination of the coefficient of surface tension of the fluid. Determination of the coefficient of internal friction of a fluid by the Stokes method. Determination of the coefficient of internal friction of a liquid by a capillary viscometer. Determination of gas viscosity coefficient. Determination of the thermal conductivity of air. Determination of the thermal conductivity of solids. Determination of water vapor diffusion coefficient in the air. Determination of humidity. Determination of the temperature coefficient of volumetric expansion of a liquid. Thermal expansion of solids. Determination of entropy change during heating and melting of tin. Obtaining and measuring high vacuum.
Recommended or required reading and other learning resources/tools
1. O.A Yeshchenko, V.M Kravchenko, N.V Bashmakova, V.Yu. Kudrya, M.M Lazarenko, A.V. Tugay, T.Yu. Nikolaenko, N.I. Beaver “Molecular physics. Laboratory Workshop, Kyiv, Electronic Printing, 2020, 156 p.
2. Bulavin LA, Gavryushenko DA, Sysoev VM, Molecular Physics, Kyiv, "Knowledge", 2006, 540 p.
3. Yu.I. Szymanski, O.T Szymanska, “Molecular Physics”, Kyiv-Mohyla Academy Publishing House, Kyiv, 2007, 462 p.
4. Pogorelov V.E "Molecular Physics", Electronic lecture notes on the website of the Department of Experimental Physics http://exp.phys.univ.kiev.ua/ua/Study/Lib/index.html
5. I. V. Saveliev, Course of Physics (Volume I: Mechanics. Molecular Physics). M.; Science, 1989.
6. Sivukhin DV General course of physics. T. II. Thermodynamics and molecular physics. – M .: Nauka, 1990.
7. Irodov I.E Macrosystems physics. Basic Laws, Binom, 2006
Planned learning activities and teaching methods
Laboratory work
Assessment methods and criteria
Assessment is conducted during the semester, after the performance and defense of laboratory work. To enroll in laboratory work, the student must submit a written report on the relevant laboratory work, which must contain the original experimental data, calculations - the formula and result of calculating the required value, errors, relevant graphs, conclusions about measurement methods, and obtained results, answer the basic questions on the topic of work. The final assessment is conducted in the form of a differentiated test. The student can receive a maximum of 100 points: 60 points for work during the semester and 40 points during the test.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Vladyslav
Yuriiovych
Kudria
Department of Experimental Physics
Faculty of Physics
Faculty of Physics
Nataliia
Volodymirivna
Bashmakova
Department of Experimental Physics
Faculty of Physics
Faculty of Physics
Departments
The following departments are involved in teaching the above discipline
Department of Experimental Physics
Faculty of Physics
Department of Experimental Physics
Faculty of Physics