Tantargy

Data

Official data in SubjectManager for the following academic year: 2024-2025

Course director

Number of hours/semester

Lectures: 42 hours

Practices: 0 hours

Seminars: 14 hours

Total of: 56 hours

Subject data

  • Code of subject: OPA-ALK-T
  • 4 Credit
  • Pharmacy
  • Basic module
  • autumn
Prerequisites:

haven't

Course headcount limitations

min. 5 people – max. 100 people

Topic

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.

Lectures

  • 1. Classification of matter. Atomic structure. Electron configuration and periodicity. The periodic table. Periodic properties. - Perjési Pál
  • 2. Classification of matter. Atomic structure. Electron configuration and periodicity. The periodic table. Periodic properties. - Perjési Pál
  • 3. Classification of matter. Atomic structure. Electron configuration and periodicity. The periodic table. Periodic properties. - Perjési Pál
  • 4. Structure of molecules. Chemical bonding. Chemical bonding theories. Valence bond theory. Hybrid orbitals. Molecular orbital theory. Moleculas geometry. - Perjési Pál
  • 5. Structure of molecules. Chemical bonding. Chemical bonding theories. Valence bond theory. Hybrid orbitals. Molecular orbital theory. Moleculas geometry. - Perjési Pál
  • 6. Structure of molecules. Chemical bonding. Chemical bonding theories. Valence bond theory. Hybrid orbitals. Molecular orbital theory. Moleculas geometry. - Perjési Pál
  • 7. States of matter. The gaseous state. Gas laws. Intermolecular forces. The liquid state. The solid state. Phase transitions. Phase diagrams. - Almási Attila
  • 8. States of matter. The gaseous state. Gas laws. Intermolecular forces. The liquid state. The solid state. Phase transitions. Phase diagrams. - Almási Attila
  • 9. States of matter. The gaseous state. Gas laws. Intermolecular forces. The liquid state. The solid state. Phase transitions. Phase diagrams. - Almási Attila
  • 10. 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 . - Almási Attila
  • 11. 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 . - Almási Attila
  • 12. 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 . - Almási Attila
  • 13. Chemical kinetics. Reaction rates. The collision theory. Rate laws and reaction mechanisms. - Perjési Pál
  • 14. Chemical kinetics. Reaction rates. The collision theory. Rate laws and reaction mechanisms. - Perjési Pál
  • 15. Chemical kinetics. Reaction rates. The collision theory. Rate laws and reaction mechanisms. - Perjési Pál
  • 16. Chemical equilibria. LeChatelier's principle. Protolytic reactions I. Ionization of water. The pH scale. - Fülöpné Kiss Edit
  • 17. Chemical equilibria. LeChatelier's principle. Protolytic reactions I. Ionization of water. The pH scale. - Fülöpné Kiss Edit
  • 18. Chemical equilibria. LeChatelier's principle. Protolytic reactions I. Ionization of water. The pH scale. - Fülöpné Kiss Edit
  • 19. Protolytic reactions II. Acid-base concepts. Acid-base equilibria. - Fülöpné Kiss Edit
  • 20. Protolytic reactions II. Acid-base concepts. Acid-base equilibria. - Fülöpné Kiss Edit
  • 21. Protolytic reactions II. Acid-base concepts. Acid-base equilibria. - Fülöpné Kiss Edit
  • 22. Buffers. Physiological buffer systems. Acid-base titrations. - Almási Attila
  • 23. Buffers. Physiological buffer systems. Acid-base titrations. - Almási Attila
  • 24. Buffers. Physiological buffer systems. Acid-base titrations. - Almási Attila
  • 25. Heterogeneous equilibria. Thermodynamics and equilibrium. - Perjési Pál
  • 26. Heterogeneous equilibria. Thermodynamics and equilibrium. - Perjési Pál
  • 27. Heterogeneous equilibria. Thermodynamics and equilibrium. - Perjési Pál
  • 28. Colligative properties. Colloids. - Fülöpné Kiss Edit
  • 29. Colligative properties. Colloids. - Fülöpné Kiss Edit
  • 30. Colligative properties. Colloids. - Fülöpné Kiss Edit
  • 31. Thermochemistry. Basic thermodynamics. - Perjési Pál
  • 32. Thermochemistry. Basic thermodynamics. - Perjési Pál
  • 33. Thermochemistry. Basic thermodynamics. - Perjési Pál
  • 34. Electrochemistry I. - Perjési Pál
  • 35. Electrochemistry I. - Perjési Pál
  • 36. Electrochemistry I. - Perjési Pál
  • 37. Electrochemistry II. - Perjési Pál
  • 38. Electrochemistry II. - Perjési Pál
  • 39. Electrochemistry II. - Perjési Pál
  • 40. Complex ions and coordination compounds I. Structure and isomerism. - Almási Attila
  • 41. Complex ions and coordination compounds I. Structure and isomerism. - Almási Attila
  • 42. Complex ions and coordination compounds I. Structure and isomerism. - Almási Attila

Practices

Seminars

  • 1. Structure of atoms
  • 2. Periodic properties
  • 3. Chemical bondings
  • 4. Chemical bondings
  • 5. Phase transitions
  • 6. Electrolytic dissociation
  • 7. Chemical kinetics.
  • 8. Chemical equilibria
  • 9. Protolytic reactions. The pH scale
  • 10. Acid-base theories. Hydrolysis of salts
  • 11. Buffers
  • 12. Thermodynamics
  • 13. Colligative properties
  • 14. Electrochemistry

Reading material

Obligatory literature

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

Literature developed by the Department

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

Notes

Recommended literature

en.wikibooks.org/wiki/General_Chemistry

Conditions for acceptance of the semester

Acknowledgment of the course is in accord with the Code of Studies and Examinations. Participation in both the lectures and the seminars is obligatory. A maximum of three absences can be accepted both from the lectures and the practices. Two compulsory midterm tests (on the topics of the lectures and the seminars) will be written during the semester on the 7th and the 12th weeks. One of the test results should be above 60%, and the average of the tests should be above 50%. One retake test is allowed on the 14th week of the semester. The result of the retake test is added to the previous two.

Mid-term exams

Two compulsory midterm tests (on the topics of the lectures and the practices) will be written during the semester on the 7th and the 12th weeks. One of the test results should be above 60%, and the average of the tests should be above 50%. One retake test is allowed in the 14th week of the semester. The result of the retake test is added to the previous two.

Making up for missed classes

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

Exam topics/questions

Oral exam covering the topics of the lectures, and the seminars. Before the exam students should have a Minimum Requirement Test of which result should be at least 80%. Information on the topics of the Minimum Requirement Tests and the list of questions of the find exam is available on the home page of the Institute.

Examiners

  • Perjési Pál

Instructor / tutor of practices and seminars

  • Almási Attila
  • Fülöpné Kiss Edit
  • Perjési Pál