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: 0 hours

Total of: 42 hours

Subject data

  • Code of subject: OPA-P2E-T
  • 3 Credit
  • Pharmacy
  • Natural and Social Sciences module
  • spring
Prerequisites:

OPA-L1E-T finished , OPA-L2G-T parallel , OPA-ALK-T finished

Course headcount limitations

min. 5 people – max. 50 people

Topic

Within the frame of the theoretical and practical trainings of this subject students will study the quantitative approach of chemical analysis. This approach is crucial for the study of almost all fields of the pharmaceutical sciences such as pharmaceutical chemistry, pharmaceutical technology etc. Students have to learn and examine the theory and practice of the quantitative analytical reactions, methods, rules and calculations.

Lectures

  • 1. Introduction to quantitative chemical analysis. The analytical process. The tools - Perjési Pál
  • 2. Introduction to quantitative chemical analysis. The analytical process. The tools. - Perjési Pál
  • 3. Introduction to quantitative chemical analysis. The analytical process. The tools. - Perjési Pál
  • 4. The volumetric analysis. Processing the results of chemical analysis. The measurement error. - Rozmer Zsuzsanna
  • 5. The volumetric analysis. Processing the results of chemical analysis. The measurement error. - Rozmer Zsuzsanna
  • 6. The volumetric analysis. Processing the results of chemical analysis. The measurement error. - Rozmer Zsuzsanna
  • 7. Acid-base titrations. Titration curve. Indication of the equivalence point. - Kulcsár Győző Kornél
  • 8. Acid-base titrations. Titration curve. Indication of the equivalence point. - Kulcsár Győző Kornél
  • 9. Acid-base titrations. Titration curve. Indication of the equivalence point. - Kulcsár Győző Kornél
  • 10. Neutralization analysis. Titration of strong acids and bases. - Perjési Pál
  • 11. Neutralization analysis. Titration of strong acids and bases. - Perjési Pál
  • 12. Neutralization analysis. Titration of strong acids and bases. - Perjési Pál
  • 13. Neutralization analysis. Titration of weak acids and bases. - Perjési Pál
  • 14. Neutralization analysis. Titration of weak acids and bases. - Perjési Pál
  • 15. Neutralization analysis. Titration of weak acids and bases. - Perjési Pál
  • 16. Neutralization analysis. Titration in non-aqueous solutions. - Perjési Pál
  • 17. Neutralization analysis. Titration in non-aqueous solutions. - Perjési Pál
  • 18. Neutralization analysis. Titration in non-aqueous solutions. - Perjési Pál
  • 19. Complexometry I. Theory. - Perjési Pál
  • 20. Complexometry I. Theory. - Perjési Pál
  • 21. Complexometry I. Theory. - Perjési Pál
  • 22. Complexometry II. Practice. - Perjési Pál
  • 23. Complexometry II. Practice. - Perjési Pál
  • 24. Complexometry II. Practice. - Perjési Pál
  • 25. Redox titrations.Titration curve. Indication of the equivalence point. - Perjési Pál
  • 26. Redox titrations.Titration curve. Indication of the equivalence point. - Perjési Pál
  • 27. Redox titrations.Titration curve. Indication of the equivalence point. - Perjési Pál
  • 28. Redox titrations. Oxidimetry I. - Perjési Pál
  • 29. Redox titrations. Oxidimetry I. - Perjési Pál
  • 30. Redox titrations. Oxidimetry I. - Perjési Pál
  • 31. Redox titrations. Oxidimetry II. - Perjési Pál
  • 32. Redox titrations. Oxidimetry II. - Perjési Pál
  • 33. Redox titrations. Oxidimetry II. - Perjési Pál
  • 34. Redox titrations. Reductometry. - Perjési Pál
  • 35. Redox titrations. Reductometry. - Perjési Pál
  • 36. Redox titrations. Reductometry. - Perjési Pál
  • 37. Precipitate titrations. - Perjési Pál
  • 38. Precipitate titrations. - Perjési Pál
  • 39. Precipitate titrations. - Perjési Pál
  • 40. The practice of pharmacopoeial volumetric analysis. - Perjési Pál
  • 41. The practice of pharmacopoeial volumetric analysis. - Perjési Pál
  • 42. The practice of pharmacopoeial volumetric analysis. - Perjési Pál

Practices

Seminars

Reading material

Obligatory literature

Harris D.C.: Quantitative Chemical Analysis, 8th ed., W.H. Freeman and Co., New York, 2010

Literature developed by the Department

Laboratory handouts - describing details of the experiments.

Notes

Recommended literature

Conditions for acceptance of the semester

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 test results should be above 50%. One retake test is allowed on the 13th week of the semester. The result of the retake test is added to the previous two. The condition for admission to the exam is the successful completion of a practical subject taken in parallel.

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 test results should be above 50%. One retake test is allowed on the 13th week of the semester. The result of the retake test is added to the previous two. The condition for admission to the exam is the successful completion of a practical subject taken in parallel.

Making up for missed classes

There is no possibility of making up missed classes.

Exam topics/questions

Oral exam covering the topics of Pharmacopoeial Analysis 1. and Pharmacopoeial Analysis 2. The oral part of the examination consists of two items. In case of insufficient knowledge of any of them, the exam ends with an insufficient grade. The examination mark is determined on the basis of the results of the semester papers and the answers to the oral questions. The list of questions of the final exam is available on the Neptun system.

Examiners

  • Perjési Pál

Instructor / tutor of practices and seminars