Advanced Organic Chemistry 310-ERS-COZE
Study profile – general academic
Mode of study – full-time
Type of subject – mandatory
Field: Exact and Natural Sciences, Discipline: Chemical Sciences
Year of study/semester – Year 1, second cycle, Summer semester
Prerequisites – Organic Chemistry II, Spectroscopic Methods in Chemical Analysis
Number of instructional hours categorized by form – 25 hours of lectures, 30 hours of laboratory
Teaching methods:
- for lectures: lecture, seminar-style lecture, explanatory consultations
- for laboratories: practical exercises, observations, clarifying talks, consultations
ECTS credits – 3
Student workload balance:
Quantitative indicators – student workload related to activities requiring direct teacher involvement: 57 hours, corresponding to 2.3 ECTS points; student workload independent of direct teacher involvement: 18 hours, corresponding to 0.7 ECTS points.
|
W cyklu 2024:
The lecture covers the following content: - Stereochemistry (topicality, prochirality, prostereoisomerism, selectivity and specificity of the reaction, enantiomeric excess and diastereomeric, stereoisomerism of molecules without stereogenic centres). Laboratory exercises are designed to familiarize the student with various synthesis techniques, purification methods, and organic compound identification methods (1H NMR, 13C NMR, IR). |
W cyklu 2025:
The lecture covers the following content: - Stereochemistry (topicality, prochirality, prostereoisomerism, selectivity and specificity of the reaction, enantiomeric excess and diastereomeric, stereoisomerism of molecules without stereogenic centres). Laboratory exercises are designed to familiarize the student with various synthesis techniques, purification methods, and organic compound identification methods (1H NMR, 13C NMR, IR). |
W cyklu 2026:
The lecture covers the following content: - Stereochemistry (topicality, prochirality, prostereoisomerism, selectivity and specificity of the reaction, enantiomeric excess and diastereomeric, stereoisomerism of molecules without stereogenic centres). Laboratory exercises are designed to familiarize the student with various synthesis techniques, purification methods, and organic compound identification methods (1H NMR, 13C NMR, IR). |
Założenia (opisowo)
Koordynatorzy przedmiotu
Rodzaj przedmiotu
Wymagania (lista przedmiotów)
Założenia (lista przedmiotów)
Tryb prowadzenia przedmiotu
Efekty kształcenia
KP7_WG1 – Knows the types of organic reactions and is able to discuss and represent both basic and complex organic reaction mechanisms graphically, in accordance with the current state of knowledge.
KP7_WG2 – Possesses advanced knowledge in organic chemistry, enabling them to discuss the structure of organic compounds (including their spatial structure), their physical and chemical properties, and explain reaction mechanisms. Knows methods for the synthesis and identification of organic compounds.
KP7_WG7 – Has knowledge of health and safety regulations, particularly the principles of safely handling chemical reagents and solvents, as well as the segregation and disposal of chemical waste. Has the ability to apply this knowledge in laboratory work and organize a safe, independent research workstation.
KP7_UW1 – Is able to plan and conduct scientific experiments in organic compound synthesis, selecting the appropriate amounts of reagents and suitable glassware and laboratory equipment.
KP7_UW2 – Is able to choose and apply appropriate measurement methods to verify the achievement of synthetic goals and use the obtained data to determine the structure of organic compounds.
KP7_UW6 – Has a basic ability to interpret IR, ¹H NMR, and ¹³C NMR spectra. Can compare and interpret data, and apply known solutions to new situations in the synthesis and analysis of organic compounds. Is able to prepare a report on the conducted research.
KP7_KO2 – Can work both in a group and independently. Has knowledge of health and safety regulations and is prepared to create a safe workspace for themselves and other group members.
Kryteria oceniania
Assessment criteria according to the approved University of Białystok Study Regulations:
Total points required to achieve the final grade in %:
5 (Very good): 91-100
4+ (Good plus): 81-90
4 (Good): 71-80
3+ (Satisfactory plus): 61-70
3 (Satisfactory): 51-60
2 (Fail): below 51
Flexible forms of assessment may be introduced in agreement between the lecturer and the student, in line with the principles of universal design, provided that these conditions are established at the beginning of the teaching cycle.
Literatura
1. J. Clayden, N. Greeves, S. Warren, P. Wothers "Organic Chemistry",
2. D. G. Morris "Stereochemistry",
3. M. B. Smith, J. March "March's Advanced Organic Chemistry"
4. J. March "Organic Chemistry: reactions, mechanisms, structure"
5. J. McMurry "Organic chemistry"
6. I. Fleming. D. Williams "Spectroscopic Methods in Organic Chemistry"
7. A. I. Vogel "Textbook of Practical Organic Chemistry"
8. L. M. Harwood, C. J. Moody "Experimental Organic Chemistry: Principles and Practice"
Więcej informacji
Dodatkowe informacje (np. o kalendarzu rejestracji, prowadzących zajęcia, lokalizacji i terminach zajęć) mogą być dostępne w serwisie USOSweb: