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Lecturer(s)
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Kafka Stanislav, doc. Ing. CSc.
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Barbuščáková Zuzana, Mgr.
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Prucková Zdeňka, Ing. Ph.D.
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Kimmel Roman, Ing. Ph.D.
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Kovář Michal, Ing.
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Course content
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1. Forms of matter, physical interactions, knowledge leading to the nuclear model of the atom, nuclides, elements and isotopes. 2. Rutherford model of the atom, atomic spectra, Bohr model of the hydrogen atom. 3. Wave-mechanical model of the atom, the periodic table of elements, ionisation energy and the electron affinity of atoms. 4. Kossel theory of ion bonding, Lewis theory of covalent bonding, theory of molecular orbitals, hybridisation of atomic orbitals. 5. Delocalisation of pi-bonds, polar covalent bond, electronegativity, metal bond, non-bonding interactions. 6. Chemical reactions and their classification, rate of a chemical reaction, chemical equilibrium, catalysis. 7. Electrolytic dissociation, precipitation reactions, gas evolving reactions, redox reactions, electrolysis, Arrhenius and Broensted theory of acids and bases, strength of acids and bases, acidity and basicity of aqueous solutions. 8. The Lewis theory of acids and bases, complexation reaction, occurrence atoms of elements in nature. 9. Chemistry of s-block elements. 10. Boron, aluminum, carbon, silicon and their compounds. 11. Glass and silicates; germanium, tin, lead and their compounds. 12. Chemistry of nitrogen and phosphorus, oxygen, water, oxides, peroxocompounds, superoxides and ozonides, sulfur chemistry. 13. Chemistry of halogens; titanium, vanadium, chromium, molybdenum, tungsten, manganese, and their compounds. 14. Chemistry of iron triad elements, platinum metals, metals of the groups 11 and 12; noble gases and their compounds.
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Learning activities and teaching methods
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Lecturing, Monologic (Exposition, lecture, briefing), Methods for written tasks (e.g. comprehensive exams, written tests)
- Participation in classes
- 56 hours per semester
- Home preparation for classes
- 24 hours per semester
- Preparation for examination
- 40 hours per semester
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| prerequisite |
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| Knowledge |
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| Knowledge of chemistry at secondary school level. |
| Knowledge of chemistry at secondary school level. |
| learning outcomes |
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| structure of the atom (Bohr's model of the hydrogen atom, quantum-mechanical model of the atom) |
| structure of the atom (Bohr's model of the hydrogen atom, quantum-mechanical model of the atom) |
| types of chemical bonds, theory of molecular orbitals, principles of weak interactions between molecules |
| types of chemical bonds, theory of molecular orbitals, principles of weak interactions between molecules |
| basics of chemical kinetics (definition of chemical reaction rate, reaction order) and the principle of chemical equilibrium based on the Guldberg-Waage law |
| basics of chemical kinetics (definition of chemical reaction rate, reaction order) and the principle of chemical equilibrium based on the Guldberg-Waage law |
| use of periodic trends when comparing physical and chemical properties of elements and their compounds |
| use of periodic trends when comparing physical and chemical properties of elements and their compounds |
| chemical transformations and preparation or production of selected substances based on chemical reactions |
| chemical transformations and preparation or production of selected substances based on chemical reactions |
| Skills |
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| perform calculations based on weight balance or mass balance |
| perform calculations based on weight balance or mass balance |
| perform stoichiometric calculations including the use of the equation of state of an ideal gas and Faraday's laws of electrolysis |
| perform stoichiometric calculations including the use of the equation of state of an ideal gas and Faraday's laws of electrolysis |
| perform conversions between the concentrations of strong acids or bases and the pH values of their aqueous solutions |
| perform conversions between the concentrations of strong acids or bases and the pH values of their aqueous solutions |
| create systematic names of inorganic compounds according to their formulas and write formulas, or draw structural electron formulas, of inorganic compounds according to their systematic names |
| create systematic names of inorganic compounds according to their formulas and write formulas, or draw structural electron formulas, of inorganic compounds according to their systematic names |
| calculate stoichiometric coefficients of reactants and products of a chemical reaction |
| calculate stoichiometric coefficients of reactants and products of a chemical reaction |
| teaching methods |
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| Knowledge |
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| Monologic (Exposition, lecture, briefing) |
| Methods for written tasks (e.g. comprehensive exams, written tests) |
| Methods for written tasks (e.g. comprehensive exams, written tests) |
| Lecturing |
| Monologic (Exposition, lecture, briefing) |
| Lecturing |
| Skills |
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| Dialogic (Discussion, conversation, brainstorming) |
| Dialogic (Discussion, conversation, brainstorming) |
| Practice exercises |
| Practice exercises |
| assessment methods |
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| Knowledge |
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| Composite examination (Written part + oral part) |
| Composite examination (Written part + oral part) |
| Grade (Using a grade system) |
| Grade (Using a grade system) |
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Recommended literature
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Elektronicky přístupné studijní materiály: online http://chemie.utb.cz/anorg/.
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General chemistry : principles and modern applications. 9th ed. Upper Saddle River, N.J. : Pearson Education, 2007. ISBN 131493302.
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Cotton, F. A., Wilkinson, G. Anorganická chemie. Praha: Academia, 1973.
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Gažo, J. a kol. Všeobecná a anorganická chémia. Bratislava : ALFA, 1974.
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Heslop, R. B., Jones, K. Anorganická chemie. Praha : SNTL, 1982.
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Housecroft, C. E., Sharpe, A. G. Anorganická chemie. Praha, 2014. ISBN 978-80-7080-872-6.
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Kafka, Stanislav. Příklady a úlohy z obecné, anorganické a organické chemie. 4. (uprav.).. Zlín: Univerzita Tomáše Bati ve Zlíně, 2011. ISBN 978-80-7454-095-0.
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Klikorka, J., Hájek, B., Votinský, J. Obecná a anorganická chemie. Praha : ALFA, 1985.
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Kolektiv. Názvosloví anorganické chemie. Praha : Academia, 1987.
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Kolektiv. Přehled středoškolské chemie. Praha : SPN, 1990. ISBN 80-04-22463-6.
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Krätsmár-Šmogrovič, Juraj. Všeobecná a anorganická chémia: učebnica pre farmaceutické fakulty. Bratislava: Osveta, 1994. ISBN 8021705329.
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Remy, H. Anorganická chemie, I. díl. Praha: SNTL, 1971.
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Remy, H. Anorganická chemie, II. díl. Praha: SNTL, 1971.
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Wichterle, O., Petrů, F. Anorganická chemie. Praha: Nakladatelství Československé akademie věd, 1953.
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