Chair of Dynamics and Structure of Matter
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Chair Head: Dr. Ljiljana Kolar - Anic, full professor
e-mail: lkolar@ffh.bg.ac.rs
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Professional skills provided by the chair:
This chair provides courses that are theoretical or theoretical-experimental in nature, used to interpret experimental results in order to define the structure and state of matter.
Thus, within the course of Quantum Chemistry, a student is trained to analyse the structure of a molecule and its energy states, whereas Statistical Thermodynamics enables him to relate that knowledge and data obtained from spectroscopic measurements with macroscopic properties of the system.
With such knowledge a student is equipped to, within other courses of this chair, investigate the structure and properties of different states of matter (solid, liquid, macromolecules, etc.), complex compounds, but also biological systems, dynamic states of systems away from equilibrium and the phenomenon of their self-organisation, which exist both in natural and social sciences.
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| COURSES |
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Obligatory courses:
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Mathematical Methods in Physical Chemistry
Statistical Thermodynamics
Computer Applications in Physical Chemistry
Quantum Chemistry and Molecular Structures
Solid State Physical Chemistry
Physical Chemistry of Fluids
Biophysical Chemistry (Biophysical Chemistry I) |
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Choice courses:
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Dynamics of Non-Linear Processes
Physical Chemistry of Macro-Molecules
Physical Chemistry of Complex Compounds
Biophysical Chemistry I
Biophysical Chemistry II
Biophysical Chemistry of Metabolism
Physical Chemistry Methods in Biology and Medicine
Biosystems and Radiation
Basics of Non-Equilibrium Thermodynamics |
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Graduate courses:
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Theoretical Fundamentals of Molecular Spectroscopy
Application of Group Theory in Quantum Chemistry
Chemical Reactivity
Equilibrium and Non-Equilibrium Statistical Thermodynamics
Dynamics of Non-Linear Processes
Non-Equilibrium Thermodynamics
Structure and Dynamics of Biomacromolecules
Membranes and Transport
Biophysical Thermodynamics
Physical Chemistry of Photobiological Processes
Non-Equilibrium States and Oscillatory Processes
Experimental Methods of Biophysical Chemistry
Physical Chemistry of Polymers
Higher Course of Solid State Physical Chemistry
Physical Chemistry Methods of Structure Determination
Self-organisation of Non-Equilibrium Systems
Experimental Methods of Non-Equilibrium Process Analysis
Mathematical Modelling and Simulation of Complex Processes
Biophysical Chemistry of Oscillatory Processes
Regulatory Mechanisms at Cell Level
Equilibria in Complexing Environments |
