Physical Chemistry II 310-ERS-CHF2E
LECTURE:
1.Electrochemistry of electrolyte solutions
Nature of electrolytes. Electrolytic dissociation. Weak and strong electrolytes. Electric conductance of electrolyte solutions. Specific and molar conductance. Mobility of ions. Applications of conductance of solutions. Mechanism of ionic conductance. Transport numbers. Measurements of conductance.
2. Surface phenomena and adsorption
Types of interfaces. Surface energy and surface tension. Surface excess. Gibbs’ adsorption equation. Adsorption isotherms of Henry, Freundlich, Langmuir. Adsorption on solid surface.
3. Physical chemistry of dispersed systems, colloids and macromolecules. Microheterogeneous systems, classification. Molecular kinetic properties of colloids. Structure of colloidal particles. Optical properties of colloids. Coagulation of lyophobic colloids. Protective action of colloids. Coagulation of lyophilic colloids. Peptization, syneresis, gelation, swelling. Electrical properties of colloids.
4. Chemical kinetics and catalysis
Velocity of chemical reaction. Constant of reaction velocity. Order of reaction. Mechanisms of reactions. Kinetic equations. Methods of kinetic studies. Chemical catalysis. Catalysts. Mechanism of catalysis.
SEMINAR:
1.Specific conductance, equivalent (molar) conductance, ionic mobility, transport numbers.
2.Chemical kinetics: rate of reaction, effect of temperature on rate of reaction, reaction order, kinetic equation, activation energy, parallel reactions.
3. Galvanic cell: electric potential of a Galvanic cell, activity coefficient, solubility product.
LABORATORY:
1.Adsorption of acetic acid on activated carbon
2.Determination of the solubility product of silver chloride using method of the electromotive force (EMF) of the cell measurements
3.Rate of chemical reactions. Iodination of Acetone.
4.Conductivity determination of dissociation constant of a weak acid.
5.Examination of the effect of the acid concentration on kinetics of sugar inversion reaction
6.Determination of isoelectric point of gelatine by viscosity measurements.
7.Surface tension measurement of selected liquids by stalagmometric method. Parachor and refrachor determination.
8.Determination of the dissociation constant of the indicator by spectrophotometric method
Complementary classes
Final classes
Rodzaj przedmiotu
Koordynatorzy przedmiotu
W cyklu 2024: | W cyklu 2022: | W cyklu 2023: |
Efekty kształcenia
1. Student defines the basic concepts of physical chemistry, electrochemistry, surface phenomena, adsorption, kinetics, catalysis and describes how they are related to other fields of science K_W08
2. Selects the appropriate IT tools for the statistical evaluation of the experiment results, calculations and preparation of the presentation K_W11
3. Explains the basics of the construction and principles of operation of measuring equipment K_W12
4. Interprets the results of the conducted experiments, critically evaluates the results, estimates measurement errors, prepares reports K_U04
5. Is responsible for the safety of their own work and that of others K_K05
6. Interested in basic processes related to physical chemistry and their role in everyday life K_K02
7. Learns selected issues independently K_U08
Kryteria oceniania
In order to pass the laboratory, student must complete all laboratory exercices, pass the reports on the exercises perfomed and obtain a positive grade from the written tests. Exam from the lecture.
Literatura
1. Atkins P. Physical Chemistry Oxford University Press 2017
2. Atkins P., De Paula J. Elements of Physical Chemistry. Oxford University Press 2016
3. Smith B.E. Basic Chemical Thermodynamics, Imperial College Press 2013
4. Hofmann A. Physical Chemistry, Essentials Springer International Publishing AG 2018
and materials provided by the teatcher.
Więcej informacji
Dodatkowe informacje (np. o kalendarzu rejestracji, prowadzących zajęcia, lokalizacji i terminach zajęć) mogą być dostępne w serwisie USOSweb: