Organic Chemistry I

Mode of Delivery

Face to Face

Prerequisites and Co-Requisites

None

Recommended Optional Programme Components

KTP-Organic Chemistry II

Course Contents

This course includes organic chemistry, classification of hydrocarbons, bonding of carbon in organic compounds, Drawing 's' and 'p' orbitals (sp, sp2,sp3 hybridization). Molecular and structural formulas (condensed and open line) for simple organic compounds. Isomerism and resonance forms of organic compounds. Saturated hydrocarbons ,alkanes, cycloalkanes. Common and IUPAC nomenclature. Conformations ,physical and chemical properties and chemical reactions. Unsaturated hydrocarbons, nomenclature, structure, properties and simple reactions of alkenes. Reaction mechanism (trans electrophilic addition) of alkenes. Nomenclature, structure, properties and simple reactions of alkynes. Aromatic hydrocarbons ,structure of benzene ring and stability due to resonance. Common and IUPAC nomenclature of aromatic hydrocarbons. Alkyl halides.

Weekly Schedule

1) Introduction to organic chemistry, classification of hydrocarbons
2) Analysing hybridization (sp, sp2, sp3 ) of carbon and drawing moleküler orbitals.
3) Covalent bonding for organic compounds,molecular and structural formulas (condensed and open line) for simple organic compounds.
4) Isomerism and resonance forms of organic compounds and general organic reaction mechanisms.
5) Saturated hydrocarbons, alkanes, cycloalkanes. Common and IUPAC nomenclature.
6) Conformations, physical and chemical properties and chemical reactions of alkanes.
7) Reactions and obtaining reactions of alkanes. Combustion, cracking, reactions with nitric acid and halogen. Grignard, Wurtz, Kolbe electrolysis, the catalytic reduction of alkenes and alkynes, reduction reactions of halogenoalkanes.
8) Midterm examination/Assessment
9) Unsaturated hydrocarbons (alkenes, alkynes).
10) Structure of alkenes, physical and chemical properties and isomerizations (structural and geometric).
11) Reactions of alkenes (addition, substitution, oxidation). 'Markovnikov Rules' related to the reaction mechanism of Trans Electrophilic Addition of alkanes.
12) Obtaining reactions of alkenes (dehydration of alcohols, dehydrohalogenation of halogenoalkanes, dehydration of 1,2-dihalogenoalkanes, catalytic hydrogenation of alkynes).Examples for Saytzeff Rules.
13) Structure of alkynes, physical and chemical properties, izomerization types.Reactions of alkynes (catalytic hydrojenation, electrophilic addition, oxidation...)
14) Obtaining reactions of alkynes (dehydrohalogenation, dehalogenation, reactions of halogenoalkanes with metal acetyls...)
15) Laboratory applications. Evaluate the results obtained, write reports, come to meaningful conclusions and produce recommendations.
16) Final examination

Recommended or Required Reading

Planned Learning Activities and Teaching Methods

1) Lecture
2) Question-Answer
3) Discussion
4) Drill and Practice
5) Modelling
6) Group Study
7) Lab / Workshop

Assessment Methods and Criteria

Contribution of Semester Studies to Course Grade	30%
Number Percentage Semester Studies Midterm Examination 1 90% Practices 1 10%
Contribution of Final Examination to Course Grade	70%
Total	100%

Language of Instruction

Turkish

Work Placement(s)

Not Required