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Lecturer(s)
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Course content
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Learning outcomes: The graduate will have basic knowledge of chemistry applied in the next courses. Lectures - topics: 1. Matter, elementary particles, atomic structure, isotopes. Compounds, mixtures, solutions. 2. Radiation, radioactivity, nuclear transformations, use and abuse of nuclear energy. 3. Periodic table of elements, work with the periodic table. Chemical bond and interactions. 4. Chemical reactions. Catalysts and enzymes. Fundamentals of thermochemistry. 5. Acids and bases, pH. Neutralization. 6. Redox potential of metals, fundamentals of electrochemistry, galvanic cells. 7. Selected significant non-metals, their properties and compounds. 8. Selected significant metals, their properties and compounds. 9. Crude oil and its processing. Fundamentals of petrochemicals. 10. Selected significant compounds in organic chemistry. 11. Fundamentals of chemical analysis. Sampling and sample preparation. 12. Instrumental analytical methods, optical. 13. Instrumental analytical methods, separation. Seminars - topics: 1. Introduction to chemical nomenclature. 2. Nomenclature of inorganic compounds. 3. Nomenclature of inorganic compounds. 4. Basics of chemical calculations. 5. Calculations of solutions. 6. Calculations of pH of strong acids and bases. 7. Calculations of solubility. 8. Ideal and real gases. Calculations from the equation of state of an ideal gas. 9. Calculations from the equation of state of an ideal gas. 10. Systematic organic chemistry. 11. Systematic organic chemistry. 12. Basic principles of chemical analyses in the laboratory and in the field. 13. Preparation for the course credit.
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing), Dialogic (discussion, interview, brainstorming)
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Learning outcomes
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The aim of the course is to familiarize students with basic chemical disciplines and to acquire basic knowledge of their most important principles and laws.
Students will be able to perform simple chemical calculations, name simple inorganic and organic compounds, know the principles of selected analytical methods, know the most important knowledge and principles of inorganic chemistry, organic chemistry, analytical chemistry, biochemistry and physical chemistry.
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Prerequisites
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unspecified
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Assessment methods and criteria
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Student performance assessment, Combined exam
Conditions for obtaining credit: Active participation in seminars, only two absences allowed. Writing a credit test (with at least 50%). In case of failure, a maximum of two retakes possible. Exam: Writing a test with at least 50% and then passing the oral part of the exam.
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Recommended literature
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Antal, P. Bártová, I. Cvičení z anorganické chemie. Olomouc. 2021.
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Atkins, P.W., De Paula, J. Fyzikální chemie. Praha. 2013.
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Budka, J., Cibulka, R. Písanka organické chemie. Praha. 2021.
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Drabina, P. Bioorganická chemie. Univ. Pardubice. 2020.
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Flemr, V., Holečková, E. Úlohy z názvosloví a chemických výpočtů v anorganické chemii. Praha. 2011.
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Housecroft, C.E., Sharpe,A.G. Anorganická chemie. Praha. 2014.
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Klimešová, V. Seminární cvičení z obecné a anorganické chemie. Praha. 2018.
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Kodíček, Milan; Valentová, Olga,; Hynek, Radovan. Biochemie : chemický pohled na biologický svět. 2. přepracované vydání. Praha: Vysoká škola chemicko-technologická v Praze, 2018. ISBN 978-80-7592-013-3.
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Křížek, M. Základy výpočtů v analytické chemii a základy práce s daty. JU Č.Budějovice, 2022. ISBN 978-80-7394-917-4.
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Křížek,M.-Šíma,J. Analytická chemie. JU Č.Budějovice, 2015. ISBN 978-80-7394-486-5.
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McMurry, J. Organická chemie. Brno: Vutium, 2015. ISBN 9788070809303.
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Novák, Josef. Fyzikální chemie : bakalářský a magisterský kurz. První svazek. Vyd. 1. Praha : Vydavatelství VŠCHT: Vydavatelství VŠCHT, 2008. ISBN 978-80-7080-675-3.
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Skoog, D.A. Analytická chemie. Praha. 2019.
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