Organic Chemistry and Chemistry Laboratory
A.Y. 2023/2024
Learning objectives
The aim of the course is to provide students with the necessary background to understand the chemistry of organic compounds and organic reactions mechanisms that are of interest in Biology, together with the necessary background to work safely in a chemical laboratory.
Organic Chemistry (module)
This module aims at providing the student with the knowledge required to tackle the fundamental problems of organic chemistry, with particular emphasis on the study of the correlation between chemical properties and reactivity of organic compounds that are relevant for Biological Chemistry.
Chemistry Laboratory (module)
In particular the aim of the module is teaching students how to safely work in a chemistry lab and to acquire problem solving skills.
Organic Chemistry (module)
This module aims at providing the student with the knowledge required to tackle the fundamental problems of organic chemistry, with particular emphasis on the study of the correlation between chemical properties and reactivity of organic compounds that are relevant for Biological Chemistry.
Chemistry Laboratory (module)
In particular the aim of the module is teaching students how to safely work in a chemistry lab and to acquire problem solving skills.
Expected learning outcomes
The student will be able to know the principles of organic chemistry and to evaluate the applications of those chemical knowledges that are basic for the study of Biological Chemistry.
Organic chemistry (module)
At the end of this specific module the student will acquire a good understanding of structure and reactivity of simple organic molecules; he/she will be able to describe reaction mechanisms and to predict on their basis the course of unknown reactions
Chemistry Laboratory (module)
At the end of this module the student will be able to recognize and use the most common laboratory glassware, acquiring awareness of the fundamental safety standards. He/she will be able to perform simple experimental procedures, also working in team, and fill out the laboratory notebook.
Organic chemistry (module)
At the end of this specific module the student will acquire a good understanding of structure and reactivity of simple organic molecules; he/she will be able to describe reaction mechanisms and to predict on their basis the course of unknown reactions
Chemistry Laboratory (module)
At the end of this module the student will be able to recognize and use the most common laboratory glassware, acquiring awareness of the fundamental safety standards. He/she will be able to perform simple experimental procedures, also working in team, and fill out the laboratory notebook.
Lesson period: Second semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course cannot be attended as a single course. Please check our list of single courses to find the ones available for enrolment.
Course syllabus and organization
A - L
Responsible
Lesson period
Second semester
Prerequisites for admission
The knowledge of the basic topics treated in a General Chemistry course is compulsory. The notions acquired in the course "Chimica generale con Elementi di Chimica Fisica" (first semester) are taken for granted.
Assessment methods and Criteria
Organic chemistry module: students are evaluated through a written examination and an interview, both compulsory, to test their capability to recognize the reactivity of organic compounds from their structure. In the case of positive evaluation of the written examination, students must be assessed through a colloquium done in the same exam session.
Laboratory module: students are evaluated on the basis of the knowledge and the skill acquired performing the experiments
The final course-grade is a weighted average of the two modules evaluations.
Laboratory module: students are evaluated on the basis of the knowledge and the skill acquired performing the experiments
The final course-grade is a weighted average of the two modules evaluations.
modulo: Laboratorio di Chimica (con Prevenzione e Sicurezza)
Course syllabus
The course will allow the acquisition of expertise of working in a chemistry laboratory and of solving stoichiometry calculations.
Lessons will point to the experiences and will concern:
· elements of risk management in a chemistry laboratory
· laboratory fundamentals
· numerical applications of solution equilibria
· principles and techniques of instrumental analysis for the compound characterization and the qualitative and quantitative analysis
Lessons will point to the experiences and will concern:
· elements of risk management in a chemistry laboratory
· laboratory fundamentals
· numerical applications of solution equilibria
· principles and techniques of instrumental analysis for the compound characterization and the qualitative and quantitative analysis
Teaching methods
Teacher-centered, interactive lessons, partially supported by slides presentation, and single-student laboratory experiments.
The inscription to this module is compulsory, it is one-year valid and it must be done exclusively in november-december (check on course web-site). All students will then be convened on a fixed day for the laboratory rotations assignment: absent students will be considered renunciative.
Attendance at all scheduled laboratory lessons and experiments is compulsory
The inscription to this module is compulsory, it is one-year valid and it must be done exclusively in november-december (check on course web-site). All students will then be convened on a fixed day for the laboratory rotations assignment: absent students will be considered renunciative.
Attendance at all scheduled laboratory lessons and experiments is compulsory
Teaching Resources
M.Consiglio, V.Frenna, S.Orecchio "Il laboratorio di chimica" EdiSES.
Copy of the in-class material is available on the course web-site.
http://gsellolco.ariel.ctu.unimi.it/v3/home/Default.aspx
Copy of the in-class material is available on the course web-site.
http://gsellolco.ariel.ctu.unimi.it/v3/home/Default.aspx
modulo: Chimica Organica
Course syllabus
Saturated hydrocarbons: alkanes and cycloalkanes. Structure, nomenclature and properties. Isomerism: structural isomers and conformers. Conformational analysis.
Stereochemistry. Chirality and stereogenic carbons. Configurational isomers. Enantiomers and diastereoisomers. The R, S system of nomenclature. Optical rotation and optical purity.
Alkenes. Structure, nomenclature and properties. The E, Z system of nomenclature. Reaction of alkenes: ionic addition of H-X (Markovnikov's rule): hydration; halogenation, oxidation and hydrogenation. Reactivity of allylic systems. Introduction to dienes, polyenes and terpenes.
Alkynes: structure and properties. Brief introduction on the reactivity of triple bond.
Aromatic compounds. Resonance effect and the structure of benzene. Criteria for aromaticity. Electrophilic aromatic substitution: mechanism and substituent effect.
Heteroaromatic compounds. Pyrrole, pyridine, indole, imidazole.
Haloalkanes and substitution and elimination reactions. Nucleophilic substitution at saturated carbon atoms: rates, mechanism (SN1, SN2), stereochemistry. Elimination reactions (E1, E2).
Alcohols, thiols, ethers and epoxides. Structure, nomenclature and properties. Acidity of alcohols. Oxidation and elimination reactions. Reactivity of epoxides (an introduction). Phenols.
Amines. Structure, nomenclature and properties. Aromatic amines.
Carbonyl compounds. Structure, nomenclature and properties. Nucleophilic addition of hydrides, water, alcohols and ammonia derivatives. Oxidation and reduction reactions. Keto-enol tautomerism.
Carboxylic acids and derivatives. Structure, nomenclature and acidity of carboxylic acids. Synthesis of acyl chlorides, anhydrides, esters. Esters: properties and reactions. Acid- and base-catalyzed hydrolysis of esters. Amides: structure and properties of the amide bond. Phosphoric acid esters.
Enolates: acidity at the alpha-position of aldehydes, ketons and esters. Alkylation of enolates. The aldol condensation. The Claisen condensation. Structure and properties of beta-diketons, beta-ketoesters and malonic esters. The decarboxylation reaction.
Carbohydrates. Structure and properties. Monosaccharides. Cyclic structure of monosaccharides. Reactions of carbohydrates. Formation of glycosides and disaccharides.
Amino acids. Classification and properties of amino acids. Configuration of amino acids. Acid-base properties of amino acids. The isoelectric point. Peptide bond and peptides conformation.
Lipids: structure, classification and properties.
Purine and pyrimidine bases. Tautomerism and hydrogen bonding. The structure of nucleosides and nucleotides.
Stereochemistry. Chirality and stereogenic carbons. Configurational isomers. Enantiomers and diastereoisomers. The R, S system of nomenclature. Optical rotation and optical purity.
Alkenes. Structure, nomenclature and properties. The E, Z system of nomenclature. Reaction of alkenes: ionic addition of H-X (Markovnikov's rule): hydration; halogenation, oxidation and hydrogenation. Reactivity of allylic systems. Introduction to dienes, polyenes and terpenes.
Alkynes: structure and properties. Brief introduction on the reactivity of triple bond.
Aromatic compounds. Resonance effect and the structure of benzene. Criteria for aromaticity. Electrophilic aromatic substitution: mechanism and substituent effect.
Heteroaromatic compounds. Pyrrole, pyridine, indole, imidazole.
Haloalkanes and substitution and elimination reactions. Nucleophilic substitution at saturated carbon atoms: rates, mechanism (SN1, SN2), stereochemistry. Elimination reactions (E1, E2).
Alcohols, thiols, ethers and epoxides. Structure, nomenclature and properties. Acidity of alcohols. Oxidation and elimination reactions. Reactivity of epoxides (an introduction). Phenols.
Amines. Structure, nomenclature and properties. Aromatic amines.
Carbonyl compounds. Structure, nomenclature and properties. Nucleophilic addition of hydrides, water, alcohols and ammonia derivatives. Oxidation and reduction reactions. Keto-enol tautomerism.
Carboxylic acids and derivatives. Structure, nomenclature and acidity of carboxylic acids. Synthesis of acyl chlorides, anhydrides, esters. Esters: properties and reactions. Acid- and base-catalyzed hydrolysis of esters. Amides: structure and properties of the amide bond. Phosphoric acid esters.
Enolates: acidity at the alpha-position of aldehydes, ketons and esters. Alkylation of enolates. The aldol condensation. The Claisen condensation. Structure and properties of beta-diketons, beta-ketoesters and malonic esters. The decarboxylation reaction.
Carbohydrates. Structure and properties. Monosaccharides. Cyclic structure of monosaccharides. Reactions of carbohydrates. Formation of glycosides and disaccharides.
Amino acids. Classification and properties of amino acids. Configuration of amino acids. Acid-base properties of amino acids. The isoelectric point. Peptide bond and peptides conformation.
Lipids: structure, classification and properties.
Purine and pyrimidine bases. Tautomerism and hydrogen bonding. The structure of nucleosides and nucleotides.
Teaching methods
Teacher-centered, interactive lessons, supported by slides presentation. Attendance is strongly recommended.
Teaching Resources
Any good Organic Chemistry textbook which covers exhaustively the different topics of the course.
B. Botta et al., Chimica Organica Essenziale - II Edizione, EdiErmes, Milano, 2018.
W. H. Brown, T. Poon, Introduzione alla Chimica Organica - VI Edizione, Edises, Napoli, 2020.
P. Y. Bruice, Elementi di Chimica Organica, Edises, Napoli, 2017.
H. Hart, C. M. Hadad, L. E. Craine, D. J. Hart, Chimica organica - VIII Edizione, Zanichelli, Bologna, 2019.
J. McMurry, Fondamenti di Chimica Organica - IV Edizione, Zanichelli, Bologna, 2011.
Exercises:
F. Nicotra, L. Cipolla, Eserciziario di chimica organica, Edises, Napoli, 2013.
M. V. D'Auria, O. Taglialatela Scafati, Guida Ragionata allo Svolgimento di Esercizi di Chimica Organica, Loghìa Editore, Napoli, 2020.
B. L. Iverson, S. Iverson, Guisa alla soluzione dei problemi di Chimica organica di Brown, Iverson, Anslyn, Foote - IV Edizione, Edises, Napoli, 2016.
On Ariel website all files of (a) lessons, and (b) exercises will be available
B. Botta et al., Chimica Organica Essenziale - II Edizione, EdiErmes, Milano, 2018.
W. H. Brown, T. Poon, Introduzione alla Chimica Organica - VI Edizione, Edises, Napoli, 2020.
P. Y. Bruice, Elementi di Chimica Organica, Edises, Napoli, 2017.
H. Hart, C. M. Hadad, L. E. Craine, D. J. Hart, Chimica organica - VIII Edizione, Zanichelli, Bologna, 2019.
J. McMurry, Fondamenti di Chimica Organica - IV Edizione, Zanichelli, Bologna, 2011.
Exercises:
F. Nicotra, L. Cipolla, Eserciziario di chimica organica, Edises, Napoli, 2013.
M. V. D'Auria, O. Taglialatela Scafati, Guida Ragionata allo Svolgimento di Esercizi di Chimica Organica, Loghìa Editore, Napoli, 2020.
B. L. Iverson, S. Iverson, Guisa alla soluzione dei problemi di Chimica organica di Brown, Iverson, Anslyn, Foote - IV Edizione, Edises, Napoli, 2016.
On Ariel website all files of (a) lessons, and (b) exercises will be available
modulo: Chimica Organica
CHIM/06 - ORGANIC CHEMISTRY - University credits: 6
Practicals: 16 hours
Lessons: 40 hours
Lessons: 40 hours
Professor:
Cauteruccio Silvia
modulo: Laboratorio di Chimica (con Prevenzione e Sicurezza)
CHIM/03 - GENERAL AND INORGANIC CHEMISTRY
CHIM/06 - ORGANIC CHEMISTRY
CHIM/06 - ORGANIC CHEMISTRY
Practicals: 16 hours
Single bench laboratory practical: 32 hours
Single bench laboratory practical: 32 hours
Shifts:
Turno A1
Professor:
Carlucci LuciaTurno A1+A2+A3
Professor:
Damiano CaterinaTurno A2
Professor:
Mercandelli PierluigiTurno A3
Professor:
Colombo AlessiaM - Z
Responsible
Lesson period
Second semester
Prerequisites for admission
In order to be able to follow the organic Chemistry course successfully, it is essential to have mastered the concepts taught in the first semester of the general Chemistry with physical Chemistry course.
Assessment methods and Criteria
The organic chemistry unit (module) consists of a written test followed by an oral examination aimed to test the student's ability to predict the properties and chemical behaviour of organic compounds.
The Chemistry Laboratory module is examined by evaluating the practical tests carried out by the student during the course.
A single mark is recorded based on the average of the marks from the two modules, weighted according to credits.
The Chemistry Laboratory module is examined by evaluating the practical tests carried out by the student during the course.
A single mark is recorded based on the average of the marks from the two modules, weighted according to credits.
modulo: Laboratorio di Chimica (con Prevenzione e Sicurezza)
Course syllabus
The course will allow the acquisition of expertise of working in a chemistry laboratory and of solving stoichiometry calculations.
Lessons will point to the experiences and will concern elements of risk management in a chemistry laboratory, laboratory fundamentals, numerical applications of solution equilibria
principles and techniques of instrumental analysis for the compound characterization and the qualitative and quantitative analysis.
Lessons will point to the experiences and will concern elements of risk management in a chemistry laboratory, laboratory fundamentals, numerical applications of solution equilibria
principles and techniques of instrumental analysis for the compound characterization and the qualitative and quantitative analysis.
Teaching methods
Teacher-centered, interactive lessons, partially supported by slides presentation, and single-student laboratory experiments.
The inscription to this module is compulsory, it is one-year valid and it must be done exclusively in november-december (check on course web-site). All students will then be convened on a fixed day for the laboratory rotations assignment: absent students will be considered renunciative.
Attendance at all scheduled laboratory lessons and experiments is compulsory.
The inscription to this module is compulsory, it is one-year valid and it must be done exclusively in november-december (check on course web-site). All students will then be convened on a fixed day for the laboratory rotations assignment: absent students will be considered renunciative.
Attendance at all scheduled laboratory lessons and experiments is compulsory.
Teaching Resources
M. Consiglio, V. Frenna, S. Orecchio "Il laboratorio di chimica" EdiSES.
Copy of the in-class material is available on the course web-site.
https://lco.ariel.ctu.unimi.it/
Copy of the in-class material is available on the course web-site.
https://lco.ariel.ctu.unimi.it/
modulo: Chimica Organica
Course syllabus
Structure and bonding of organic compounds, molecule shape and bond angles (VSEPR theory), atomic orbitals and molecular orbitals, hybridisation of organic molecules, double and triple bonds.
Organic reactions, acids and bases from Brønsted-Lowry to Lewis, nucleophiles and electrophiles, inductive effect, relative stability of carbocation, carbanions and radicals.
Alkanes and cycloalkanes: chain and conformational isomers, nomenclature, physical properties, chemical properties, hints on saturated hydrocarbons in Nature.
Alkenes, alkynes and conjugated dienes: nomenclature, geometric stereoisomery, preparation methods, physical properties, chemical properties. Conjugated dienes and the resonance effect, 1,2 and 1,4 addition.
Aromatic hydrocarbons: benzene, resonance and molecular orbital theory, aromaticity, nomenclature, preparation methods, physical properties and toxicity. Chemical properties: aromatic electrophilic substitution reactions, orientation, activating and deactivating groups.
Stereochemistry: structural isomery and stereoisomery, stereogenic centres, chiral molecules, chirality and optical activity. The polarimeter. Molecules with more than one stereocentre: enantiomers and diastereoisomers. Nomenclature of enantiomers, R,S descriptors.
Alkyl halides: nomenclature, halide derivatives in Nature, preparation methods, physical properties. Chemical properties: mono- and bimolecular substitution reactions, mono- and bimolecular elimination reactions, competitiveness between substitutions and eliminations.
Alcohols, phenols, ethers, sulphur compounds: nomenclature, preparation methods, physical properties. Chemical properties: oxidation and dehydration reactions, mention of thiols and ethers. Epoxides and their reactivity.
Amines and nitrogenous heterocycles: nomenclature, methods of preparation, physical properties, basicity, chemical properties, natural amines, mention of nitrogenous heterocycles.
Carbonyl compounds: nomenclature, preparation methods of aldehydes and ketones, physical properties. Chemical properties: nucleophilic addition reactions to carbonyl carbon, catalytic reduction, with sodium boron hydride and with NADPH, hydration, reactions with alcohols and with nitrogenous nucleophiles. Keto-enolic tautomeria, alpha-carbonyl acidity and structure of enolates, reactions with electrophiles, aldolic condensation.
Carboxylic acids and derivatives: nomenclature, preparation methods, physical properties. Reactivity of acids: conversion to acyl chlorides and anhydrides, Fischer esterification, saponification. Esters: nomenclature, preparations, reactivity; acid and basic hydrolysis, Claisen condensation. Amides: nomenclature, preparations, reactivity: acid and basic hydrolysis, nitrogen alkylation.
Lipids: characteristics and classifications of lipids, saponifiable lipids, unsaponifiable lipids, detergency.
Carbohydrates: characteristics of carbohydrates, definitions and classification, D- and L-sugars, cyclic and acyclic structure of monosaccharides, graphical representations of monosaccharides and their interconversion, mutarotation, monosaccharide reactions to anomeric carbon, main monosaccharides, disaccharides, polysaccharides.
Natural amino acids: classification, acidity and isoelectric point. Peptide bonding and peptides, determination of the sequence of a peptide. Protein structure, hints at the study of the sequence of a protein.
Nucleic acids: their hydrolysis: nucleotides, nucleosides, nitrogenous bases, ribose, deoxyribose. Some important nucleosides and nucleotides. DNA. Notes on RNA.
Organic reactions, acids and bases from Brønsted-Lowry to Lewis, nucleophiles and electrophiles, inductive effect, relative stability of carbocation, carbanions and radicals.
Alkanes and cycloalkanes: chain and conformational isomers, nomenclature, physical properties, chemical properties, hints on saturated hydrocarbons in Nature.
Alkenes, alkynes and conjugated dienes: nomenclature, geometric stereoisomery, preparation methods, physical properties, chemical properties. Conjugated dienes and the resonance effect, 1,2 and 1,4 addition.
Aromatic hydrocarbons: benzene, resonance and molecular orbital theory, aromaticity, nomenclature, preparation methods, physical properties and toxicity. Chemical properties: aromatic electrophilic substitution reactions, orientation, activating and deactivating groups.
Stereochemistry: structural isomery and stereoisomery, stereogenic centres, chiral molecules, chirality and optical activity. The polarimeter. Molecules with more than one stereocentre: enantiomers and diastereoisomers. Nomenclature of enantiomers, R,S descriptors.
Alkyl halides: nomenclature, halide derivatives in Nature, preparation methods, physical properties. Chemical properties: mono- and bimolecular substitution reactions, mono- and bimolecular elimination reactions, competitiveness between substitutions and eliminations.
Alcohols, phenols, ethers, sulphur compounds: nomenclature, preparation methods, physical properties. Chemical properties: oxidation and dehydration reactions, mention of thiols and ethers. Epoxides and their reactivity.
Amines and nitrogenous heterocycles: nomenclature, methods of preparation, physical properties, basicity, chemical properties, natural amines, mention of nitrogenous heterocycles.
Carbonyl compounds: nomenclature, preparation methods of aldehydes and ketones, physical properties. Chemical properties: nucleophilic addition reactions to carbonyl carbon, catalytic reduction, with sodium boron hydride and with NADPH, hydration, reactions with alcohols and with nitrogenous nucleophiles. Keto-enolic tautomeria, alpha-carbonyl acidity and structure of enolates, reactions with electrophiles, aldolic condensation.
Carboxylic acids and derivatives: nomenclature, preparation methods, physical properties. Reactivity of acids: conversion to acyl chlorides and anhydrides, Fischer esterification, saponification. Esters: nomenclature, preparations, reactivity; acid and basic hydrolysis, Claisen condensation. Amides: nomenclature, preparations, reactivity: acid and basic hydrolysis, nitrogen alkylation.
Lipids: characteristics and classifications of lipids, saponifiable lipids, unsaponifiable lipids, detergency.
Carbohydrates: characteristics of carbohydrates, definitions and classification, D- and L-sugars, cyclic and acyclic structure of monosaccharides, graphical representations of monosaccharides and their interconversion, mutarotation, monosaccharide reactions to anomeric carbon, main monosaccharides, disaccharides, polysaccharides.
Natural amino acids: classification, acidity and isoelectric point. Peptide bonding and peptides, determination of the sequence of a peptide. Protein structure, hints at the study of the sequence of a protein.
Nucleic acids: their hydrolysis: nucleotides, nucleosides, nitrogenous bases, ribose, deoxyribose. Some important nucleosides and nucleotides. DNA. Notes on RNA.
Teaching methods
Mode of delivery: traditional. Interactive lectures supported by projected material. Attendance: strongly recommended.
Teaching Resources
Any good organic chemistry textbook is usable, which covers all course topics adequately.
General organic chemistry texts for students of biological sciences:
B. Botta et al., Chimica Organica Essenziale - II Edizione, EdiErmes, Milano, 2018.
AA.VV., La Chimica organica di Brown e Poon, Edises, Napoli, 2023.
P. Y. Bruice, Elementi di Chimica Organica, Edises, Napoli, 2017.
H. Hart, C. M. Hadad, L. E. Craine, D. J. Hart, Chimica organica - VIII Edizione, Zanichelli, Bologna, 2019.
J. McMurry, Fondamenti di Chimica Organica - IV Edizione, Zanichelli, Bologna, 2011.
Italian adaptations from American "master" editions:
J. Gorzinsky-Smith, Fondamenti di Chimica Organica - III Edizione, McGraw Hill Education, Milano, 2023.
L. G. Wade, Fondamenti di Chimica Organica, Piccin, Padova, 2014.
Exercise books:
F. Nicotra, L. Cipolla, Eserciziario di chimica organica, Edises, Napoli, 2013.
M. V. D'Auria, O. Taglialatela Scafati, Guida Ragionata allo Svolgimento di Esercizi di Chimica Organica, Loghìa Editore, Napoli, 2020.
B. L. Iverson, S. Iverson, Guisa alla soluzione dei problemi di Chimica organica di Brown, Iverson, Anslyn, Foote - IV Edizione, Edises, Napoli, 2016.
Files of the presentations relating to: (1) the Organic Chemistry lectures, (2) the exercises will be available on the Ariel website.
General organic chemistry texts for students of biological sciences:
B. Botta et al., Chimica Organica Essenziale - II Edizione, EdiErmes, Milano, 2018.
AA.VV., La Chimica organica di Brown e Poon, Edises, Napoli, 2023.
P. Y. Bruice, Elementi di Chimica Organica, Edises, Napoli, 2017.
H. Hart, C. M. Hadad, L. E. Craine, D. J. Hart, Chimica organica - VIII Edizione, Zanichelli, Bologna, 2019.
J. McMurry, Fondamenti di Chimica Organica - IV Edizione, Zanichelli, Bologna, 2011.
Italian adaptations from American "master" editions:
J. Gorzinsky-Smith, Fondamenti di Chimica Organica - III Edizione, McGraw Hill Education, Milano, 2023.
L. G. Wade, Fondamenti di Chimica Organica, Piccin, Padova, 2014.
Exercise books:
F. Nicotra, L. Cipolla, Eserciziario di chimica organica, Edises, Napoli, 2013.
M. V. D'Auria, O. Taglialatela Scafati, Guida Ragionata allo Svolgimento di Esercizi di Chimica Organica, Loghìa Editore, Napoli, 2020.
B. L. Iverson, S. Iverson, Guisa alla soluzione dei problemi di Chimica organica di Brown, Iverson, Anslyn, Foote - IV Edizione, Edises, Napoli, 2016.
Files of the presentations relating to: (1) the Organic Chemistry lectures, (2) the exercises will be available on the Ariel website.
modulo: Chimica Organica
CHIM/06 - ORGANIC CHEMISTRY - University credits: 6
Practicals: 16 hours
Lessons: 40 hours
Lessons: 40 hours
Professor:
Dal Corso Alberto
modulo: Laboratorio di Chimica (con Prevenzione e Sicurezza)
CHIM/03 - GENERAL AND INORGANIC CHEMISTRY
CHIM/06 - ORGANIC CHEMISTRY
CHIM/06 - ORGANIC CHEMISTRY
Practicals: 16 hours
Single bench laboratory practical: 32 hours
Single bench laboratory practical: 32 hours
Professors:
Civera Monica, Sattin Sara
Shifts:
Turno B1
Professor:
Civera MonicaTurno B1+B2
Professor:
Sattin SaraTurno B2
Professor:
Sattin SaraEducational website(s)
Professor(s)
Reception:
Chemistry Dep., building 5B, 3rd floor, room 3021
Reception:
By appointment by e-mail
Dipartimento di Chimica – Corpo A – Piano rialzato – Stanza R36
Reception:
by appointment
Chemistry Department, via Golgi, 19, Building 5, 3rd floor, corpo (unit) B, Room 3058B