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Lecturer(s)
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Kočí Kamila, prof. Ing. Ph.D.
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Course content
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- Orientation and basics. - Equillibrium: - First law of thermodynamics. - Second law of termodynamics. - Third law of thermodynamics. - Phase diagrams. - Simple mixtures. - Chemical equillibrium. - Equillibrium electrochemistry. - Structure: - Quantum theory. - Structure and atomic spectra. - Molecular structure. - Molecular spectra. - Rotational and vibrational spectra. - Electron transitions. - Magnetic resonance. - Statistical thermodynamics - basics. - Difraction methods. - Electrical and magnetic properties of molecules. - Macromolecules and colloids. - Transitions: - Molecules in motion. - Velocity of chemical reactions. - Kinetics of complex reactions. - Dynamics of molecular reactions. - Processes at solid interfaces. - Dynamic electrochemistry.
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Learning activities and teaching methods
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Lecturing, Methods for working with texts (Textbook, book), Simple experiments, Practice exercises, Individual work of students
- Preparation for examination
- 50 hours per semester
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| prerequisite |
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| Knowledge |
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| Knowledge of mathematics, physics and inorganic, organic and analytical chemistry. |
| Successfully finished university studies in technical subject orientation focused on materials science, chemistry of materials, macromolecular chemistry, technology of macromolecular substances. |
| Successfully finished university studies in technical subject orientation focused on materials science, chemistry of materials, macromolecular chemistry, technology of macromolecular substances. |
| Knowledge of mathematics, physics and inorganic, organic and analytical chemistry. |
| learning outcomes |
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| Understanding of the basic principles and laws governing the structure of atoms and molecules. |
| Understanding of the basic principles and laws governing the structure of atoms and molecules. |
| Comprehension of various states of matter and the interactions between substances and radiation. |
| Comprehension of various states of matter and the interactions between substances and radiation. |
| Understanding of the thermal effects of chemical processes. |
| Understanding of the thermal effects of chemical processes. |
| Knowledge of the equilibrium conditions in chemical and phase transformations. |
| Knowledge of the equilibrium conditions in chemical and phase transformations. |
| Knowledge of the properties of electrically conductive solutions. |
| Knowledge of the properties of electrically conductive solutions. |
| Ability to explain the conversion of electrical energy into chemical energy and vice versa. |
| Ability to explain the conversion of electrical energy into chemical energy and vice versa. |
| Understanding the principles of chemical kinetics and their application to chemical reactions. |
| Understanding the principles of chemical kinetics and their application to chemical reactions. |
| Knowledge of the fundamentals of colloid chemistry and its practical applications. |
| Knowledge of the fundamentals of colloid chemistry and its practical applications. |
| Understanding the principles and applications of photocatalytic phenomena. |
| Understanding the principles and applications of photocatalytic phenomena. |
| Knowledge of the basic principles of thermodynamics, including an introduction to statistical and non-equilibrium thermodynamics. |
| Knowledge of the basic principles of thermodynamics, including an introduction to statistical and non-equilibrium thermodynamics. |
| Fundamentals of biothermodynamics and bioenergetics. |
| Fundamentals of biothermodynamics and bioenergetics. |
| Skills |
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| Apply theoretical knowledge of physical chemistry to solve practical problems in the fields of chemistry and chemical engineering. |
| Apply theoretical knowledge of physical chemistry to solve practical problems in the fields of chemistry and chemical engineering. |
| Conduct experiments in physical chemistry, use laboratory equipment and methods correctly. |
| Conduct experiments in physical chemistry, use laboratory equipment and methods correctly. |
| Analyze and interpret experimental data. |
| Analyze and interpret experimental data. |
| Solve complex problems in the areas of chemical thermodynamics, electrochemistry, and chemical kinetics. |
| Solve complex problems in the areas of chemical thermodynamics, electrochemistry, and chemical kinetics. |
| Critically evaluate scientific information and data in the field of physical chemistry. |
| Critically evaluate scientific information and data in the field of physical chemistry. |
| Analyze and interpret results in terms of their theoretical basis. |
| Analyze and interpret results in terms of their theoretical basis. |
| Integrate knowledge from various areas of physics and chemistry and apply it to interdisciplinary problems. |
| Integrate knowledge from various areas of physics and chemistry and apply it to interdisciplinary problems. |
| Communicate scientific ideas and results effectively, both in writing and orally. |
| Communicate scientific ideas and results effectively, both in writing and orally. |
| Prepare and present professional reports and projects in the field of physical chemistry. |
| Prepare and present professional reports and projects in the field of physical chemistry. |
| teaching methods |
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| Knowledge |
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| Lecturing |
| Individual work of students |
| Individual work of students |
| Methods for working with texts (Textbook, book) |
| Lecturing |
| Methods for working with texts (Textbook, book) |
| Dialogic (Discussion, conversation, brainstorming) |
| Dialogic (Discussion, conversation, brainstorming) |
| Skills |
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| Simple experiments |
| Simple experiments |
| Practice exercises |
| Practice exercises |
| assessment methods |
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| Knowledge |
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| Oral examination |
| Preparation of a presentation |
| Preparation of a presentation |
| Grade (Using a grade system) |
| Grade (Using a grade system) |
| Written examination |
| Written examination |
| Oral examination |
| Systematic observation of the student |
| Systematic observation of the student |
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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: Oxford University Press, 2018. ISBN 0198769865.
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Atkins, P. W. Atkins´physical chemistry. 7th ed. New York : Oxford University Press, 2002. ISBN 198792859.
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Atkins, P.W. Fyzikálna chémia. Bratislava : STU, 1999. ISBN 0-19-850101.
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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, N.J.:Willey-Interscience, x, 617 s., 2008. ISBN 978-0-470-23812-7.
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McQuarrie D.A., Simon J.D. Physical chemistry: a molecular approach. Sausalito, 1997. ISBN 9780935702996.
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Novák, Josef. Fyzikální chemie I. Vyd. 1. Praha : Vysoká škola chemicko-technologická, 1999. ISBN 8070803606.
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Pelikán P. Fyzikální chemie: struktura hmoty. Brno, 2000. ISBN 8021415835.
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POUCHLÝ, J. Fyzikální chemie makromolekulárních a koloidních soustav. 3. vyd. Praha: VŠCHT, 205 s., 2008. ISBN 978-80-7080-674-6.
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Pouchlý, Julius. Fyzikální chemie makromolekulárních a koloidních soustav. Vyd. 2. Praha : Vysoká škola chemicko-technologická, 2001. ISBN 807080422X.
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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: A. Progress in Polymer Science 75, 31-47, 2017.
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SUN, H., KABB, C.P., SIMS, M.B., SUMERLIN, B.S. Architecture-Transformable Polymers: Reshaping the Future of Stimuli-Responsive Polymers. Progress in Polymer Science 89, 61-75, 2019.
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Šimek, L., Hrnčiřík, J. Fyzikální chemie II : Koloidní a makromolekulární systémy. Zlín : UTB, 2005. ISBN 80-7318-325-0.
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Šimek, Lubomír. Fyzikální chemie I. Vyd. 4. Zlín : Univerzita Tomáše Bati, 2005. ISBN 8073183242.
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