| Course label : | Organic Chemistry |
|---|---|
| Teaching departement : | CMA / |
| Teaching manager : | Madam GAELLE FONTAINE |
| Education language : | |
| Potential ects : | 0 |
| Results grid : | |
| Code and label (hp) : | ENSCL_CPI_M3_1_3_2 - Chimie organique |
Education team
Teachers : Madam GAELLE FONTAINE / Mister KEDAFI BELKHIR / Mister VANGELIS AGOURIDAS
External contributors (business, research, secondary education): various temporary teachers
Summary
This course is dedicated to the acquisition of knowledge regarding the conventional representation of organic molecules and the reactivity and mechanisms involved in monofunctional molecules. Alkanes (stability of radicals, cracking, halogenations). Alkenes (hydrogenation, electrophilic additions, oxidation, polymerisation). Alkynes (concept of true alkynes, reactivity of alkynyls, hydrogenation and chemical reduction of alkynes, oxidation, electrophilic additions). Alcohols and halogenoalkanes (nucleophilic substitution reactions and elimination). Organomagnetic compounds (preparation, reaction on multiple C-heteroatom bonds). Aromatic derivatives (electrophilic and nucleophilic substitutions). Carbonyl derivatives (nomenclature, preparation, keto-enol balance, reactions on the carbonyl function, reactions on alpha carbon). Amines (nomenclature, preparation and reactivity). Acids and derivatives (nomenclature, preparation and reactivity) Industrial organic chemistry: Teach students the basic scientific and technological knowledge of the major processes of industrial organic chemistry as well as polymer materials.
Educational goals
This course is the continuation of the course entitled "Introduction to organic chemistry" in the first year of the integrated preparatory programme (CPI1) and connects the structural chemistry fundamentals acquired in the first year to the reactivity of organic molecules. At the end of the second year of the integrated preparatory programme (CPI2A), students must master all the conventional representations of organic molecules and know the physico-chemical properties of the main organic functions. Using these tools, they must be able to predict the reactivity of a monofunctional organic molecule to common reagents and describe the simple mechanisms involved in the reactions taught.
Sustainable development goals
Knowledge control procedures
Continuous Assessment
Comments: First semester: Two tests with a coefficient of 0.5 and a final exam with a coefficient of 1 covering the entire third-semester programme.
Second semester: a final exam
Online resources
Students will not be forced to purchase documentary resources. However, the following French publication, which recaps the course in the form of summaries, may be a worthwhile resource. "Chimie organique - 2e ï¿œd. - Tout le cours en fiches" (Organic chemistry - Second edition - The entire course summarised). DUNOD editions (French), paperback. By Jacques Maddaluno (Author), Vï¿œronique Bellosta (Author), Isabelle Chataigner (Author), Franï¿œois Couty (Author), Anne Harrison-Marchand (Author), Marie-Claire Lasne (Author), Jacques Rouden (Author), and two others. Vollhardt. "Chimie organique" (Organic chemistry). De Boeck, 1990. Rabasso, N. "Chimie organique; gï¿œnï¿œralitï¿œs, ï¿œtudes des grandes fonctions et mï¿œthodes spectroscopiques" (Organic chemistry; general information, studies of major functions and spectroscopic methods). De Boeck, 2006. Jacques Maddaluno. "Chimie organique: Tout le cours en fiches" (Organic chemistry: the entire course summarised). DUNOD
Pedagogy
The courses are taught in lectures (with the entire class present) and in tutorials (for which the class is divided in half).
Sequencing / learning methods
| Number of hours - Lectures : | 54 |
|---|---|
| Number of hours - Tutorial : | 41 |
| Number of hours - Practical work : | 0 |
| Number of hours - Seminar : | 0 |
| Number of hours - Half-group seminar : | 0 |
| Number of student hours in TEA (Autonomous learning) : | 0 |
| Number of student hours in TNE (Non-supervised activities) : | 0 |
| Number of hours in CB (Fixed exams) : | 0 |
| Number of student hours in PER (Personal work) : | 0 |
| Number of hours - Projects : | 0 |
Prerequisites
Concepts from chemistry courses and introduction to organic chemistry in the first year of the integrated preparatory programme (CPI1).