COURSE OBJECTIVE: To give students the knowlwdge required to understand the basic principles of modern organic chemistry and how to use the fundamental kowledge of organic chemistry in industry.
COURSE IMPLEMENTATION PROGRAM:
WEEK 1
Introduction to carbon compounds and chemical bonds, classes of carbon compounds, functional groups.
Introduction to organic reactions: acids and bases, nomenclature of organic compounds.
WEEK 2
Alkanes and cycloalkanes: nomenclature, conformational analysis.
WEEK 3
Alkenes and alkynes: properties and synthesis, addition reactions, stereochemistry.
WEEK 4
Stereochemistry: structural isomers and stereoisomers, optical activity, enantiomers and chiral molecules, diastereomers, relative and absolute configurations, the biological importance of chirality.
WEEK 5
Partial exam I
WEEK 6
Alkyl halides: ionic reactions: nucleophilic substitution (SN1 and SN2) and elimination reaction (E1 and E2), sterochemistry of reaction.
WEEK 7
Alcohols and ethers: structure, nomenclature, properties, synthesis and reactions, organometallic compounds.
WEEK 8
Aldehyde and ketones: nucleophilic addition to the carbonyl group, reduction reaction, reactions of alpha-hydrogen.
WEEK 9
Aromatic compounds: aromaticity, properties, electrophilic aromatic substitution reactions, inductive and resonance effects.
WEEK 10
Partial exam II
WEEK 11
Carboxylic acids and their derivatives ( esters, anhydrides, amides): nomenclature, synthesis and reactions.
WEEK 12
Amines: nomenclature, properties and synthesis.
WEEK 13
Carbohydrates: nomenclature, properties and synthesis.
WEEK 14
Introduction to structure determination of organic compounds: infrared spectroscopy (IR), nuclear magnetic resonance (NMR) and mass spectrometry (MS).
WEEK 15
Partial exam III
DEVELOPING GENERAL AND SPECIFIC COMPETENCIES OF STUDENTS:
General competencies:
Apply the basic principles of modern organic chemistry and literature or their own experimental data in solving chemical-engineering problems.
Specific competencies:
Apply basic synthesis reactions and reactions involving alkanes, alkenes, alkynes, alcohols, aromatic compounds, carbonyl compounds, carboxylic acids and their derivatives and use the instrumentation used for preparative purposes.
STUDENTS' OBLIGATIONS:
Participations in lectures and exercises is mandatory.
Students are required to access knowledge tests and colloquia (related to laboratory exercises).
CONDITIONS FOR OBTAINING SIGNATURES:
Completed laboratory exercises, prepared and submitted papers, passed the final colloquium in laboratory exercises.
TEACHING METHODS:
Lectures and exercises
MANNER OF EXAMINATION OF KNOWLEDGE AND EXAMINATION
Three tests during the semester, written and oral exam.
METHOD OF MONITORING THE QUALITY AND PERFORMANCE OF COURSES
Student survey
METHODOLOGICAL PREREQUISITES
2. signature in general chemistry
COURSE LEARNING OUTCOMES
1. identify functional groups in molecules and define classes of compounds
2. apply the IUPAC rules for the designation of organic compounds
3. analyze the structure of carbon compounds, binding in organic molecules, and the structure of molecules in space
4. define the basic types of organic reactions and explain the basic reaction mechanisms while recognizing the reactive intermediates of reactions
5. define the basic synthesis reactions and reactions in which alkanes, alkenes, alkynes, alcohols, aromatic compounds, carbonyl compounds, carboxylic acids and their derivatives participate
6. distinguish the reactivity of organic compounds with respect to structure and link them to appropriate reaction mechanisms
7. apply the basic principles of modern organic chemistry and literature or their own experimental data in solving chemical-engineering problems
LEARNING OUTCOMES AT PROGRAM LEVEL
1. adopt a basic general knowledge of mathematics, physics, chemistry and biology
2. perform basic laboratory procedures in chemical laboratories
3. safely handle, dispose of and reuse chemical and waste materials
4. plan and manage time
TEACHING UNITS WITH ASSOCIATED LEARNING OUTCOMES AND EVALUATTION CRITERIA
Teaching unit
1. Carbon compounds and chemical bonds; Classes of compounds, functional groups
Learning outcomes
- analyze the structure of carbon compounds, binding in organic molecules and the structure of molecules in space
- identify functional groups in molecules and define classes of compounds
- apply the IUPAC rules for the nomenclature of organic compounds
2. Alkanes and cycloalkanes
- explain the conformations of alkanes and cycloalkanes
3. Stereochemistry
- define and name isomers
- explain CIP rules
4. Ionic reactions
- distinguish nucleophilic substitution reactions with respect to reaction kinetics, mechanism and stereochemistry
- define when these reactions take place in competition with elimination reactions
5. Alkenes and alkynes, aromatic compounds, aldehydes and ketones, carboxylic acids and their derivatives, amines, alcohols, ethers and carbohydrates
- define the basic types of organic reactions
- explain the basic reaction mechanisms and recognition of reactive intermediates of reactions
- define aromatic and non-aromatic compounds
- distinguish the reactivity of organic compounds with respect to the structure and link them to the appropriate reaction mechanisms
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Organska kemija, prijevod 7. engleskog izdanja, 1. hrvatsko izdanje, Školska knjiga 2017., L. G. Wade, ml., prevoditelji O. Kronja, V. Rapić, I. Bregovec,
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