Physical Chemistry Laboratory IIA 1200-1CHFIZ2AL4
The aim of the course is to provide students with knowledge of methods and equipment used in determination of basic properties of physical systems. This is a second part of Laboratory providing a practical demonstration of the topics covered by the lecture Physical Chemistry. The students determine: molar conductivities of weak and strong electrolytes, mean activity coefficient of electrolyte, thermodynamic functions of the reaction in the cell, standard potentials, parameters of Arrhenius equation, influence of the ionic strength on the chemical rate constant. The students investigate the kinetics of various chemical reaction and influence of catalyst on the reaction rate. They also study the kinetics of the electrode reactions.
Laboratory – 30 hrs.
Individual preparation to each experiment– 6 x 4 hrs. = 24 hrs.
Evaluation of the results and final report preparation - 6 x 4 hrs. = 24 hrs.
Total - ca.78 hrs.
Type of course
After completing the course the student is expected to:
• formulate, explain, and use a number of concepts from the chapter: electrochemistry, chemical kinetics and colloids, i.e. the activity of ions in electrolyte solutions, ion-ion interactions, Debye-Hückel equation, electrochemical potential, half-cell reactions, Nernst's equation and electrochemical reactions , Galvanic cells, electromotive force (EMF) of the cell, conductivity of electrolyte solutions, relaxation and electrophoretic effects, and molecularity and the order of a reaction, reaction rate constant, collision theory and transition state theory.
• know how the galvanic cell works
• write equations of electrode reactions and use the Nernst’s equation
The students must pass an entrance test before being eligible for starting the experiment. The entrance test checks students' knowledge of: (i) the experiment fundamentals, (ii) the purpose of the experiment, (iii) methods of the measurements; and (iv) equipment to be used in the experiment. Evaluated results of the experiment must be reported to teaching assistant in a written form as a final report.
Once all the experiments have been completed, the students take an exam covering scientific topics of the sections. All the experiments must be completed and all the final reports must be evaluated positively in order to be eligible to take the exam.
entrance test – 0,5-4 points
final report - 0 –1 points
exam - 0 – 15 points (minimum 8 points required for passing)
The points earned for the experiments are divided by 2. Maximum number of the points to be earned for the experiments: 15
Total number of points earned in the exam and number of points for the experiments will determine the final grade.
Maximum number of points to be earned in the semester: 30
Conversion between points and grades:
points: 15,6 – 18,9 grade: 3
19,0 – 21,9 grade: 3+
22,0 – 24,9 grade: 4
25,0 – 27,9 grade: 4+
28,0 – 30,0 grade: 5
To obtain the course credit the student must: (i) complete all the laboratories (7); (ii) all the final reports must be evaluated positively; (iii) pass the exam and (iv) the total number of points earned for the tests , reports and the exam must be at least 15.6.
Does not concern
1. P.W. Atkins, Chemia Fizyczna, PWN, Warszawa, 2001
2. G.M.Barrow, Chemia Fizyczna, PWN, Warszawa 1978
3. R. Brdička, Podstawy Chemii Fizycznej, PWN, Warszawa 1970
4. Chemia Fizyczna – Ćwiczenia Laboratoryjne I, Wyd.UW, Warszawa 2002.
5. H.D. Forsterling, H. Kuhn Eksperymentalna chemia fizyczna, WNT Warszawa 1976
6. K. Pigoń, Z. Ruziewicz, Chemia Fizyczna. PWN, 2005
7. Praca zbiorowa, Chemia fizyczna, PWN, Warszawa, 1980.
8. W. Ufnalski, K. Mądry, Excel dla chemików...i nie tylko, WNT, Warszawa, 2000.
9. L. Sobczyk, A. Kisza, K. Gatner, A. Koll, Eksperymentalna chemia fizyczna, PWN, Warszawa 1982.
10. Fizyka Chemiczna, red. M. J. Janik, PWN, Warszawa 1989
11. L.Sobczyk, A.Kisza, Chemia Fizyczna dla przyrodników, PWN, Warszawa 1975
12. Skrypt Chemia Fizyczna - Ćwiczenia Laboratoryjne I, W-wa 2002, Wyd. UW
Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: