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Lecturer(s)
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Nosková Lucie, Mgr. Ph.D.
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Šabata Pavel, PaedDr. CSc.
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Course content
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1st exercise SI Units. Weight of atoms and molecules. Atomic mass unit. Relative atomic and molecular weight. 2nd exercise Amount of substance. Avogadro's number, molar weight, molar volume, density. 3rd exercise Composition of system. Mass Fraction, volume fraction, molar fraction. 4th exercise Chemical formulas. Empirical formula, molecular formula. 5th exercise Nomenclature of inorganic substances. 6th exercise Chemical reactions and chemical equations. 7th exercise Quantifying of chemical equations, computation of chemical equations. 8th exercise Solutions. Composition of solutions, concentration of substance in solution. 9th exercise Mixing and dilution of solution. Substance solubility and crystallization. 10th exercise Gaseous state. Calculations by using the Law for the ideal gas, State equation for ideal gas, mixture of ideal gases. 11th exercise Electrolytes. Electrolysis, electrolytic dissociation, pH calculations, electrode potentials. 12th exercise Thermochemistry. Calculations of enthalpy by using the thermochemical laws.
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Learning activities and teaching methods
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Seminar classes, Individual study, Students' self-study
- Contact hours
- 39 hours per semester
- Preparation for formative assessments (2-20)
- 20 hours per semester
- Preparation for comprehensive test (10-40)
- 20 hours per semester
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| prerequisite |
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| Knowledge |
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| to formulate basic chemical laws |
| to define selected physicochemical quantities (cloth quantity, weight, volume, pressure, temperature, density, molar mass, pH) |
| Skills |
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| to use basic nomenclature rules when formulating the formula and name of simple inorganic compounds |
| to write a simple chemical action with a chemical equation |
| edit algebraic expressions |
| apply basic mathematical operations to chemical calculations |
| convert units |
| learning outcomes |
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| Knowledge |
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| to list and characterize types of chemical compound formulas |
| define variables expressing system composition |
| describe individual types of orbits and formulate hybridization rules |
| explain the concept of solubility of substances |
| Skills |
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| write the structural formula of selected inorganic compounds |
| derive the stoichiometric and molecular formula of the compound |
| determine the solubility of the substance in relation to temperature and composition |
| based on hybridization to describe the spatial shape of the molecules |
| write a chemical reaction with the ionic equation |
| to solve computational problems from chemical equations |
| teaching methods |
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| Knowledge |
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| Self-study of literature |
| Individual study |
| Seminar classes |
| assessment methods |
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| Test |
| Skills demonstration during practicum |
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Recommended literature
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Flemr V., Holečková E., Uhrová M. Anorganická chemie - chemické výpočty. VŠCHT Praha, 1990.
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KAMENÍČEK J., ŠINDELÁŘ Z., KLEČKOVÁ M. Příklady a úlohy z obecné a anorganické chemie. UPOL, Olomouc, 2005.
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MIČKA Z., HAVLÍČEK D., LUKEŠ I., MOSINGER J., VOJTÍŠEK P. Základní pojmy, příklady a otázky z anorganické chemie. UK, Praha, 2005. ISBN 80-7184-657-0.
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Sirotek, Vladimír; Karlíček, Jiří. Chemické výpočty a názvosloví anorganických látek. 3. vyd. Plzeň : Západočeská univerzita, 2005. ISBN 80-7043-399-X.
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