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Physical Chemistry

en hr
Code:
37914
ECTS:
6.0
Lecturers in charge:
doc. dr. sc. Filip Šupljika
Lecturers:
prof. dr. sc. Mojca Čakić Semenčić - Seminar
doc. dr. sc. Anita Horvatić - Seminar
doc. dr. sc. Filip Šupljika - Seminar

prof. dr. sc. Mojca Čakić Semenčić - Lectures

prof. dr. sc. Mojca Čakić Semenčić - Laboratory exercises
doc. dr. sc. Anita Horvatić - Laboratory exercises
Marko Nuskol , dr. sc. - Laboratory exercises
doc. dr. sc. Filip Šupljika - Laboratory exercises
Take exam:
Studomat
Load:
1. komponenta
Lecture type Total
Lectures 30
Seminar 15
Laboratory exercises 30
* Load is given in academic hour (1 academic hour = 45 minutes)
Description:
The course program includes the following methodological units: gases (ideal, real, non-covalent interactions, kinetic theory of gases), thermodynamics (heat, work, internal energy and enthalpy, thermochemistry, Gibbs free energy and entropy, Carnot cycle, calorimetry), phase equilibrium (pure substances and multicomponent systems, chemical potential, colligative properties), chemical equilibrium (thermodynamic approach), electrochemistry (ionics and electrodics), chemical kinetics (rates of chemical reactions, reaction mechanisms, collision theory and activated complex theory, catalysis), colloid and interface chemistry (adsorption, surface tension, colloids), transport phenomena (viscosity and diffusion).
The theory is complemented by seminars addressing problem-based topics in lectures and laboratory exercises where students conduct simple measurements, analyze and interpret the results obtained.
Learning outcomes:
  1. Explain the thermodynamic functions of the state and processes and methods of their measurement and calculation
  2. Explain physical and chemical transformations and equilibria using Laws of thermodynamic
  3. Derive rate laws of chemical reactions and discuss simple reaction mechanisms
  4. Describe elementary principles of electrolytic conductivity and electrodic processes
  5. Describe simple colloidal systems, surface phenomena and phenomena of matter and momentum transport
  6. Apply mathematical knowledge in solving various problems in Physical Chemistry
  7. Ffollowing the instructions provided, conduct simple measurements of the physical variables, analyze and interpret the results obtained and write the reports independently
Literature:
  1. Elements of Physical Chemistry, 5th Ed., P.W. Atkins, J. de Paula, Oxford University Press, 2009.
  2. Rješavanje računskih zadataka u kemiji, T. Cvitaš, I. Planinić, N. Kallay, Hrvatsko kemijsko društvo, 2008.
  3. Atkins' Physical Chemistry, 9th Ed., P.W. Atkins, J. de Paula, Oxford University Press, 2009.
  4. Physical Chemistry 3rd Ed., T. Engel, P. Reid, Pearson, 2012.
2. semester
Mandatory course - Regular studij - Biotechnology
Consultations schedule: