F1AC1_15 General and Inorganic Chemistry

Faculty of Pharmacy
Autumn 2020
Extent and Intensity
3/3/0. 8 credit(s). Type of Completion: zk (examination).
Teacher(s)
PharmDr. Tomáš Goněc, Ph.D. (lecturer)
Mgr. Aleš Kroutil, Ph.D. (lecturer)
PharmDr. Tomáš Goněc, Ph.D. (seminar tutor)
RNDr. Eva Havránková, Ph.D. (seminar tutor)
Mgr. Aleš Kroutil, Ph.D. (seminar tutor)
PharmDr. Pavlína Marvanová, Ph.D. (seminar tutor)
Mgr. Anna Ruprechtová (seminar tutor)
Ing. Eliška Růžičková (assistant)
Guaranteed by
PharmDr. Tomáš Goněc, Ph.D.
Department of Chemical Drugs – Departments – Faculty of Pharmacy
Supplier department: Department of Chemical Drugs – Departments – Faculty of Pharmacy
Timetable
Tue 10:30–12:45 45-135
  • Timetable of Seminar Groups:
F1AC1_15/01: Wed 7. 10. to Wed 21. 10. Wed 8:00–10:15 44-249, Wed 28. 10. to Wed 13. 1. Wed 8:00–10:15 44-342, T. Goněc, E. Havránková, A. Kroutil, E. Růžičková
F1AC1_15/02: Wed 7. 10. to Wed 21. 10. Wed 10:30–12:45 44-249, Wed 28. 10. to Wed 13. 1. Wed 10:30–12:45 44-342, T. Goněc, E. Havránková, P. Marvanová, E. Růžičková
F1AC1_15/03: Wed 7. 10. to Wed 21. 10. Wed 13:00–15:15 44-249, Wed 28. 10. to Wed 13. 1. Wed 13:00–15:15 44-342, T. Goněc, P. Marvanová, A. Ruprechtová, E. Růžičková
F1AC1_15/04: Wed 7. 10. to Wed 21. 10. Wed 15:30–17:45 44-249, Wed 28. 10. to Wed 13. 1. Wed 15:30–17:45 44-342
F1AC1_15/05: Thu 8. 10. to Thu 22. 10. Thu 8:00–10:15 44-249, Thu 29. 10. to Thu 14. 1. Thu 8:00–10:15 44-342, T. Goněc, A. Kroutil, A. Ruprechtová, E. Růžičková
F1AC1_15/06: Thu 8. 10. to Thu 22. 10. Thu 10:30–12:45 44-249, Thu 29. 10. to Thu 14. 1. Thu 10:30–12:45 44-342, T. Goněc, A. Kroutil, E. Růžičková
F1AC1_15/07: Thu 29. 10. to Thu 14. 1. Thu 14:30–16:45 44-342, T. Goněc, E. Růžičková
Prerequisites (in Czech)
FAKULTA(FaF) || OBOR(MUSFaF)
Course Enrolment Limitations
The course is only offered to the students of the study fields the course is directly associated with.
fields of study / plans the course is directly associated with
Course objectives
The students will be acquainted with the subject of chemistry including the basic branches of chemistry and the importance of chemistry for pharmacists. The course will focus on the following items: fundamental chemical terms and laws, equations for calculating the quantity of substance and concentration, atomic structure, radioactivity, basic equations used in spectral analysis, models of atomic orbitals, chemical bond including hybridization, physical states of matter, the periodic law and the classification of elements including forms and the division of the periodic system into groups, and the properties of individual elements in the periodic table.
Seminars will concentrate on problems such as calculating the amount of substance, composition of solutions, diluting and mixing solutions, formation of chemical formulas and balancing equations for stoichiometric calculations, and the calculation of the pH. During practical exercises, the students will be acquainted with the basics of laboratory work and will also prepare some inorganic compounds according to calculated equations. The students will elaborate protocols containing the description of the principle of the method and all calculations including the calculation of theoretical yield which will be compared with the practical yield obtained.
Learning outcomes
After completing the course student will:
-know basic chemical glassware,equipment and apparatus;
-be able to perform basic laboratory operations independently;
-know inorganic compound nomenclature and basic chemical clculations;
-understand the basic principles of general chemistry;
-know basic chemistry of elements
Syllabus
  • Lectures:
    General Chemistry.
    Role of the chemistry in the spectrum of naturae sciences. History of chemistry. Milestone discoveries in chemical history. Mass, discreetness of particles. Elements, symbols, periodic table, molecule, chemical formula, chemical equation. Structure and electron formula, octet rule, hypervalence, resonance, oxidation state, formal charge. Electronegativity. Definition of element, nuclide, isotope. Atomic number, atomic mass, molecular mass, amount of mass, mol. Atom, nucleus, elemental particles of mass. Moseley rule. Radioactivity, natural and artificial radionuclides, nuclear reactions, decay families.
    Quantum and wave theory, wave and particle, interference and difraction. Schrödinger equation. Planetar atom model, electron shell, Bohr model of hydrogen atom, line and continual spectra, therms, hydrogen spectrum. Structure of electron shell, quantum nombers, Pauli rule, Hund rule, stable valence shell configuration, excited state, electron configuration writing. Mendelejev periodic rule. Ionization potential, electron affinity, electronegativity. Atomic orbitals.
    Chemical bond, forms of bonding, bonding energy. Covalent bond. Valence bonding theory, simple and multiple bonds. VSEPR. Hybridization.
    Molecule orbitals theory (MO) - linear combination of atomic orbitals (LCAO), energetic diagram. MO for: H2, N2, O2 and O3. Delocalized bonds, polarised bond. System of bonds in ethene, ethyne, benzene and allene.
    Hydrogen bonds, other weak interactions. Ionization, basic ion properties, ionic bond. Crystals. Metalic bond. Electron conductivity. Donor-acceptor bond, ions of transition metals, coordinational reactions, sorts of ligands and their properties. Coordination bonding theory. Structure, magnetic properties.
    Chemical ballance, basic thermodynamical and thermochemical laws, state equations. Entalpy, entropy, free energy, spontaneousness of processes. Floating ballance principle. Basics of chemical kinetics. Speed and order of reaction. Activation energy. Arrhenius equation. Catalysis. Radical reactions. Photochemical reactions. State definitions. State of matter, dispersion systems. Solubility, solutions, concentration, diffusion, osmosis.
    Base and acid theories, protolytic reactions, neutralisation, salts, strenght of acid and base, pH, indicators, salts hydrolysis, buffers. Lewis theory, electrophiles and nucleophiles. Coagulation. Factor of solubility. Reduction-oxidation reactions. Ballancing of red-ox equations. Electrode processes. Electrochemical potential.
    Inorganic chemistry.
    Chemistry of hydrogen, water. Alkalic metals, metals of alkaline earths.
    P elements, Halogens, Noble gases. Transition elements.
    Inorganic compounds important in biosystems and pharmacy.
    Seminars
    - Nomenclature of inorganic compounds
    - Solutions concentration calculations
    - Chemical equations, stoichometry, Acidobasic equilibria
    electron configuration, shape of molecules, Lewis formulas
    Practical class
    - Introduction to laboratory work
    - Distillation and extraction
    - Synthesis of trihydrogen boric acid.
    - Synthesis of disodium tetrahydroxo pentaoxoborate.
    - Synthesis of lead iodide.
    - Benzoic acid purification
    - Preparation od copper and ferrous sulphate pentahydrate.
    - Preparation of ferric oxide
    - Coordination compounds, hydroxides - test tube reactions

Literature
    required literature
  • Krätsmár-Šmogrovič, J. a kol. Všeobecná a anorganická chémia. Ostrava, 2007. info
    recommended literature
  • Galamboš M. a kol. Názvoslovie anorganických látok.Princípy a príklady. Bratislava, UKO, 2009. ISBN 978-80-223-2. info
  • Sirotek, V., Karlíček, J. Chemické výpočty a názvosloví anorganických látek. Plzeň, ZČU, 2005. URL info
  • Flemr, V., Holečková, E. Úlohy z názvosloví a chemických výpočtů v anorganické chemii. Praha, VŠCHT, 2001. ISBN 978-80-7080-435-3. info
  • Ulická, Ľ., Ulický, L. Príklady zo všeobecnej a anorganickej chémie. 2. vyd. Bratislava, 1987. info
    not specified
  • Greenwood N.N., Earnshaw A. Chemistry of the Elements. Amsterdam, Elsevier, 2010. ISBN 9780750633659. info
  • Polák, R., Zahradník, R. Obecná chemie: stručný úvod. Praha, Academia, 2000. ISBN 80-200-0794-6. info
  • Klikorka, Jiří - Hájek, Bohumil - Votinský, Jiří. Obecná a anorganická chemie. Praha, 1989. info
Teaching methods
seminars (nomenclature and calculations), laboartory courses, lectures
Assessment methods
To obtain credits, it is necessary to meet the following conditions: compulsory participation in seminars and laboratory courses, the obligation to prepare protocols from all practical tasks. Success in continuous tests in nomenclature and calculations at least 60%. Completion of the written part of the exam in nomenclature and calculations to at least 60%. Completion of an oral exam in general chemistry and an oral exam in inorganic chemistry.
Language of instruction
Czech
Further comments (probably available only in Czech)
Study Materials
The course can also be completed outside the examination period.
Teacher's information
How to get the credit and grade for this course:
Students must pass the lab portion of the course in order to pass the entire course.
The requirements for the lab and seminar portion:
Attendance of practical class is compulsory. Non-attendance can be compensated at the end of the semester.
Requirements for gaining the credit:
- full attendance in all practicals and seminars,
- to hand in all protocols from all practical tasks in accepted form
- at least 60% successfulness in the tests the overall successfulness will be calculated as an average of all tests results

The exam:
The exam consist of written and oral part:
1. written part:
Computational problems from general chemistry similar to problems that were dealt with in the tutorial
For this part are only simple scientific calculators permitted, no mobile phones or any other material.
grading scheme for written part:
A( 1 ) 92-100%
B( 1-) 84-91%
C( 2 ) 76-83%
D( 2-) 68-75%
E( 3 ) 60-67%
F <60 %
At least E grade from written part allows student to attend oral part
2. Oral part
One question from general and one from inorganic chemistry.
Overall grade is average of all three parts. If one part is classified F, overall grade is allways F.
The course is also listed under the following terms Autumn 2021, Autumn 2022, Autumn 2023, Autumn 2024.
  • Enrolment Statistics (Autumn 2020, recent)
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