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About the Course

Department Profile
Course unit title Level of course unit Course unit code Type of course unit Semester of course unit Local credit ECTS credit Syllabus
PHYSICAL ORGANIC CHEMISTRY Second cycle KİM 649 1 7.50 7.50 Print
   
Description of course unit
Prerequisites and course requisities To be successful the students have to continue to lessons (42 hours), to repeat the topics at home (42 hours) to make homework given at the end of topics (42 hours), and to repeat generally all topics all exam periods (42 hours). (Total 168 hours/25 = 7 ECTS)
Language of instruction Turkish
Coordinator PROF. DR. İSMAİL YILDIRIM
Lecturer(s) PROF. DR. İSMAİL YILDIRIM, PROF. DR. Zülbiye ÖNAL, PROF. DR. İlhan Özer İLHAN
Teaching assitant(s) PROF. DR. Zülbiye ÖNAL, PROF. DR. İlhan Özer İLHAN
Mode of delivery face to face
Course objective It is for course of the Physical Reactions in Organic Chemistry and their Mechanisms and descriptions. It is ready Organic base the courses of Advanced, Specialized and Synthetic Organic Chemistry and Organic Chemistry Laboratories at doctorate terms.
Course description Introduction to Organic Reactions and Categorization of the Reaction Mechanisms, Chemical bonds (ionic, polar and covalent), Orbital Hybridization, Polar and nonpolar molecules, Resonance, Homolysis and Heterolysis of Covalent Bonds, Reactive Intermediates; Carbanions, Carbocations and free radicals, some important Functional Groups, A new mechanistic approach to the study of the chemical reactions and Substitution and Elimination Reactions in Organic Chemistry, Nucleophilic and Electrophilic Substitution Reactions on the Aliphatic Saturated and Unsaturated Carbon Atoms, Aromatic Electrophilic and nucleophilic Subtitution Reactions, Free Radical Reactions, Elimination Reactions, Addition Reactions on Carbon–carbon and Carbon–Heteroatom double Bonds, Reactions of Konjugated double bonds, Addition-Elimination Mechanism.

Course contents
1 Introduction to Organic Reactions and Categorization of Reaction Mechanisms, investigation of physical reaction mechanisms and products analyses.
2 Hybridization, Polar and nonpolar molecules, Polar and covalent chemical bonds, chemical kinetic.
3 Bond cleavage, Homolysis and Heterolysis of Covalent Bonds, Reactive Intermediates
4 Carbonium ions, Radicals, Carbon Atoms, and other intermediates.
5 Functional Groups, Substitution and Elimination Reactions in Organic Chemistry,
6 Nucleophilic Substitution Reactions on the Aliphatic Saturated and Unsaturated Carbon Atoms,
7 Aromatic Nucleophilic Electrophilic Substitution Reactions,
8 MID-TERM EXAM
9 Excited stated reactions, Aromatic and Alphatic Electrophilic Substitution Reactions
10 Free-Radical Reactions, Examples, Otooxydation,
11 Elimination Reactions, their Classification and Examples,
12 Diels-Alder reactions and related cyclo addition reactions,
13 Addition Reactions on Carbon–heteroatom double Bonds,
14 Oxydation-reduction, rearrangement reactions.
15 FİNAL EXAM
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Learning outcomes of the course unit
1 Student gets extensive information on organic compounds
2 Student gets information on classification of Physical organic compounds
3 Student learns organic reactions mechanisms
4 Student gets information on Organic products and active intermediates
5 Student learns specific reactions
6 Student get informed about special sysnthesis methods
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*Contribution level of the course unit to the key learning outcomes
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Number of stars refer to level of contribution from 1 (the least) to 5 (the most)

Planned learning activities, teaching methods and ECTS work load
  Quantity Time (hour) Quantity*Time (hour)
Lectures (face to face teaching) 14 3 42
Study hours out of classroom (study before and after the class) 14 3 42
Homework 7 2 14
Presentation / seminar 7 1 7
Quiz 0 0 0
Preparation for midterm exams 1 28 28
Midterm exams 1 2 2
Project (term paper) 1 5 5
Laboratuar 0 0 0
Field study 0 0 0
Preparation for final exam 1 30 30
Final exam 1 2 2
Research 7 2 14
Total work load     186
ECTS     7.50

Assessment methods and criteria
Evaluation during semester Quantity Percentage
Midterm exam 1 40
Quiz 0 0
Homework 0 0
Semester total   40
Contribution ratio of evaluation during semester to success   40
Contribution ratio of final exam to success   60
General total   100

Recommended and required reading
Textbook ] Organik Kimya, Graham Solomons & Craig Frhyle (Çeviri Editörleri: Gürol OKAY, Yılmaz YILDIRIr) [2] Organik Kimya, Fessenden.
Additional references - Organik Tepkimeler, Doç.Dr. Tahsin UYAR, Okan Yayıncılık, Ankara, (1989). - Organik Reaksiyon Mekanizmaları, C. Tüzün, Palme Yayın Dağıtım, Ankara, 3. Baskı (1999).

Files related to the course unit