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Lecturer(s)
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Lapčík Lubomír, prof. Ing. Ph.D.
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Course content
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- Focus and basics of the subject. Rotational and vibrational spectra. Electronic transitions. Magnetic resonance. - Statistical thermodynamics - basics. - Diffraction methods. Electrical and magnetic properties of molecules. - Macromolecules and colloids. - Speed of chemical reactions. Kinetics of complex reactions. Dynamics of molecular reactions. - Processes at the phase interface. Dynamic electrochemistry. - I. law of thermodynamics. II. law of thermodynamics. III. law of thermodynamics. - Phase diagrams. Simple mixes. Chemical equilibrium. - Equilibrium electrochemistry. - Structure: Quantum theory. Structure and atomic spectra. Molecular structure. Molecular spectra.
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Learning activities and teaching methods
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Methods for working with texts (Textbook, book), Individual work of students
- Preparation for examination
- 188 hours per semester
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| prerequisite |
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| Knowledge |
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| Successfully finished engineering or master degree programme focused on chemistry. |
| Successfully finished engineering or master degree programme focused on chemistry. |
| learning outcomes |
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| The student has knowledge of the basic physico-chemical processes, properties and characteristics of the studied colloidal systems. |
| The student has knowledge of the basic physico-chemical processes, properties and characteristics of the studied colloidal systems. |
| The student is able to assess the distribution of colloidal systems according to selected criteria, such as particle size of the dispersed phase, phase distribution (solid, liquid, gas) for combinations of dispersed medium and dispersed phase. |
| The student is able to assess the distribution of colloidal systems according to selected criteria, such as particle size of the dispersed phase, phase distribution (solid, liquid, gas) for combinations of dispersed medium and dispersed phase. |
| The student will be able to assess the types of colloidal systems with respect to their interactions (lyophilic, lyophobic), nature of dispersion (reversible, irreversible). |
| The student will be able to assess the types of colloidal systems with respect to their interactions (lyophilic, lyophobic), nature of dispersion (reversible, irreversible). |
| Skills |
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| The student evaluates the rheological behaviour of dispersed systems with respect to flow curves e.g. dependence of dynamic viscosity on shear rate. |
| The student evaluates the rheological behaviour of dispersed systems with respect to flow curves e.g. dependence of dynamic viscosity on shear rate. |
| The student assesses the ability of colloidal systems to mix, spread and form micellar systems with respect to the surface tension of the individual components. |
| The student assesses the ability of colloidal systems to mix, spread and form micellar systems with respect to the surface tension of the individual components. |
| teaching methods |
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| Knowledge |
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| Methods for working with texts (Textbook, book) |
| Individual work of students |
| Individual work of students |
| Methods for working with texts (Textbook, book) |
| Skills |
|---|
| Individual work of students |
| Individual work of students |
| Practice exercises |
| Practice exercises |
| assessment methods |
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| Knowledge |
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| Oral examination |
| Oral examination |
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Recommended literature
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Alberty, Robert A. Physical Chemistry. 3rd ed. New York : John Wiley & Sons, 2000. ISBN 471383112.
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Atkins P., De Paula J. Fyzikální chemie. Praha, 2013. ISBN 9788070808306.
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ATKINS, P., JULIO, DE P., KEELER J. Atkins´Physical Chemistry 11th Ed.. New York, 2018. ISBN 0198769865.
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Atkins, P.W. Physical Chemistry. Oxford.
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Bartovská L., Šišková M. Fyzikální chemie povrchů a koloidních soustav. knihova UTB ve Zlíně. Praha, VŠCHT. ISBN 807080579X.
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Bartovská L., Šišková M. Fyzikální chemie povrchů a koloidních soustav. Praha, 2005. ISBN 80-7080-579-X.
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FINK, J.K. Physical Chemistry in Depth. Heidelberg: Springer, xviii, 588 s., 2009. ISBN 978-3-642-01013-2.
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GNANOU, Y., FONTANILLE, M. Organic and Physical Chemistry of Polymers. Hoboken.
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GNANOU, Y., FONTANILLE, M. Organic and Physical Chemistry of Polymers. Hoboken, 2008.
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Hiemenz, P.C.,Rajagopalan, R. Principles of Colloid and Surface Chemistry. New York : Marcel Dekker, 1997. ISBN 0-8247-9397-8.
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Lapčík, L., Pelikán, P., Čeppan, M. Fotochemické Procesy. Bratislava : Alfa, 1989.
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McQuarrie D.A., Simon J.D. Physical chemistry: a molecular approach. Sausalito, 1997. ISBN 9780935702996.
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Pelikán P., Čeppan M., Liška M. Applications of numerical methods in molecular spectroscopy. Boca Raton, 1993. ISBN 0849373220.
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Pelikán, P., Lapčíl, L., Zmeškal, O., Krčma, F. Fyzikální chemie - struktura hmoty. Brno : VUTIUM, 2000.
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Pouchlý, J. Fyzikální chemie makromolekulárních a koloidních soustav. VŠCHT Praha, 2001. ISBN 80-7080-422-X.
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SHARMA, S.K., PUJARI, P.K. Role of Free Volume Characteristics of Polymer Matrix in Bulk Physical Properties of Polymer Nanocomposites. Progress in Polymer Science, 2017.
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SUN, H., KABB, C.P., SIMS, M.B., SUMERLIN, B.S. Reshaping the Future of Stimuli-Responsive Polymers. 2019.
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