Főoldal
Oktatás

General and Inorganic Chemistry 1

Adatok

A Tantárgybejelentőben megadott hivatalos adatok az alábbi tanévre: 2022-2023

Tantárgyfelelős

Óraszámok/félév

előadás: 28 óra

gyakorlat: 0 óra

szeminárium: 14 óra

összesen: 42 óra

Tárgyadatok

  • Kód: OPA-AM1-T
  • 3 kredit
  • Pharmacy
  • Basic modul
  • autumn
Előfeltétel:

Nincs

Vizsgakurzus:

Igen

Kurzus létszámkorlát

min. 5 fő – max. 70 fő

Tematika

The course includes selected General Chemistry topics that are essential for pharmacy students to study the Chemistry-related subjects (eg, Pharmaceutical Chemistry, Pharmaceutical Technology) in the higher semesters.

Előadások

  • 1. Classification of matter. Atomic structure. Electron configuration and periodicity. The periodic table. Periodic properties. - Dr. Kunsági-Máté Sándor
  • 2. Classification of matter. Atomic structure. Electron configuration and periodicity. The periodic table. Periodic properties. - Dr. Kunsági-Máté Sándor
  • 3. Structure of molecules. Chemical bonding. Chemical bonding theories. Valence bond theory. Hybrid orbitals. Molecular orbital theory. Moleculas geometry. - Dr. Kunsági-Máté Sándor
  • 4. Structure of molecules. Chemical bonding. Chemical bonding theories. Valence bond theory. Hybrid orbitals. Molecular orbital theory. Moleculas geometry. - Dr. Kunsági-Máté Sándor
  • 5. States of matter. The gaseous state. Gas laws. Intermolecular forces. The liquid state. The solid state. Phase transitions. Phase diagrams. - Dr. Kunsági-Máté Sándor
  • 6. States of matter. The gaseous state. Gas laws. Intermolecular forces. The liquid state. The solid state. Phase transitions. Phase diagrams. - Dr. Kunsági-Máté Sándor
  • 7. Water and the aqueous solutions. Dissolution of gases, liquids and solids in liquids. Types of electrolytes. Electrolytic dissociation, degree of dissociation, conductivity, and their relationships - Dr. Kunsági-Máté Sándor
  • 8. Water and the aqueous solutions. Dissolution of gases, liquids and solids in liquids. Types of electrolytes. Electrolytic dissociation, degree of dissociation, conductivity, and their relationships. - Dr. Kunsági-Máté Sándor
  • 9. Chemical kinetics. Reaction rates. The collision theory. Rate laws and reaction mechanisms. - Dr. Kunsági-Máté Sándor
  • 10. Chemical kinetics. Reaction rates. The collision theory. Rate laws and reaction mechanisms. - Dr. Kunsági-Máté Sándor
  • 11. Chemical equilibria. LeChatelier's principle. Protolytic reactions I. Ionization of water. The pH scale. - Dr. Lóránd Tamás
  • 12. Chemical equilibria. LeChatelier's principle. Protolytic reactions I. Ionization of water. The pH scale. - Dr. Lóránd Tamás
  • 13. Protolytic reactions II. Acid-base concepts. Acid-base equilibria. - Dr. Lóránd Tamás
  • 14. Protolytic reactions II. Acid-base concepts. Acid-base equilibria. - Dr. Lóránd Tamás
  • 15. Buffers. Physiological buffer systems. Acid-base titrations. - Dr. Lóránd Tamás
  • 16. Buffers. Physiological buffer systems. Acid-base titrations. - Dr. Lóránd Tamás
  • 17. Heterogeneous equilibria. Thermodynamics and equilibrium. - Dr. Kunsági-Máté Sándor
  • 18. Heterogeneous equilibria. Thermodynamics and equilibrium. - Dr. Kunsági-Máté Sándor
  • 19. Colligative properties. Colloids. - Dr. Kunsági-Máté Sándor
  • 20. Colligative properties. Colloids. - Dr. Kunsági-Máté Sándor
  • 21. Thermochemistry. Basic thermodynamics. - Dr. Kunsági-Máté Sándor
  • 22. Thermochemistry. Basic thermodynamics. - Dr. Kunsági-Máté Sándor
  • 23. Electrochemistry I. - Dr. Kunsági-Máté Sándor
  • 24. Electrochemistry I. - Dr. Kunsági-Máté Sándor
  • 25. Electrochemistry II. - Dr. Kunsági-Máté Sándor
  • 26. Electrochemistry II. - Dr. Kunsági-Máté Sándor
  • 27. Complex ions and coordination compounds I. Structure and isomerism. - Dr. Perjési Pál
  • 28. Complex ions and coordination compounds I. Structure and isomerism. - Dr. Kunsági-Máté Sándor

Gyakorlatok

Szemináriumok

  • 1. The periodic table. Periodic properties.
  • 2. The gaseous state. Kinetic theory of gases. Thermodynamic parameters, state functions.
  • 3. Basics of thermodynamics. Internal energy and enthalpy. Entropy.
  • 4. Chemical kinetics. Rate of reactions and reaction order. Temperature dependence of the reaction rate.
  • 5. Homogeneous and heterogeneous chemical equilibria. Equilibrium constant. Le Chateleir principle.
  • 6. Free energy change of chemical reactions. Thermodynamic requirements of spontaneous chemical reactions.
  • 7. Conductivity of electrolytes. Strong and weak electrolytes.
  • 8. Acid-base theories. (Arrhenius, Bronsted-Lowry, Lewis, Pearson)
  • 9. Formation and stability of complexes.
  • 10. pH of aqueous solutions I. Hydrolysis of salts. The hydrolysis constant.
  • 11. pH of aqueous solutions II. Buffers. Buffer capacity.
  • 12. Galvanic cells. Electrode potential. Electrodes of first and second kind.
  • 13. Redox potential. Thermodynamic requirements of spontaneous redox reactions.
  • 14. Electrolysis. Decomposition voltage. Polarization.

A tananyag elsajátításához szükséges segédanyagok

Kötelező irodalom

Ebbing D.D., Gammon S.D.: General Chemistry, Houghton Miffilin Co., Boston, 2009

Saját oktatási anyag

Almási A., Kuzma M., Perjési P.: General and Inorganic Chemistry - Laboratory Techniques and Practices, electronic educational material, University of Pécs, 2014

Jegyzet

Ajánlott irodalom

en.wikibooks.org/wiki/General_Chemistry

A félév elfogadásának feltételei

Acknowledgement of the course is in accord with the Code of Studies and Examinations. Participation is both the lectures and the practices is obligatory. Maximum three absences can be accepted both from lectures and practices. Two compulsory midterm tests (on the topics of the lectures and practices) will be written during the semester on the 7th and the 12th weeks. One of the test result should be above 60%. One re-take chance is allowed at the 14th weak of the semester.

Félévközi ellenőrzések

Távolmaradás pótlásának lehetőségei

There is no opportunity to make up missed classes (lectures and seminars).

Vizsgakérdések

Written test covering the topics of the lectures and the seminars. The result of the first part of the written exam (Minimum Written Test) should be at least 80%. In the case of the third ("C") exam the written exam is evaluated regardless the result of the Minimum Written Test. The list of the possible questions of the Minimum Written Test is announced on the Neptun system. The result of the written exam must be above 60%. The final grade is based on results of the midterm tests and the written exam. Maximum contribution of the results of the midterm tests to the total score of the written exam is 25%. Participation on the first exam is compulsory. The result of the written test must be above 60%. The final grade is based on results of the midterm tests and the written test. Maximum contribution of the results of the midterm tests to to the total score of the written test can be 25%. Participation on the first exam is compulsory.

Vizsgáztatók

  • Dr. Kunsági-Máté Sándor
  • Dr. Perjési Pál

Gyakorlatok, szemináriumok oktatói

  • Dr. Kiss László
  • Dr. Kulcsár Győző Kornél
  • Dr. Kunsági-Máté Sándor
Rólunk