General and Inorganic Chemistry and Stoichiometry
A.Y. 2020/2021
Learning objectives
The primary goal of the course is to provide a solid foundation in the basic concepts and facts of chemistry, particularly those needed for a successful understanding of other subjects for which chemistry is a prerequisite. The general chemistry course must also give the student an appreciation of the importance of chemistry to society in general and to daily life in particular.
Expected learning outcomes
The expected learning outcomes for the students will be the achievement of the ability to correctly write the reactions, to identify the different reaction types, to evaluate the thermodynamic and kinetic reaction conditions and of the skillfulness to use friendly the methodologies for quantitative achievement of the chemical reactions.
Lesson period: Activity scheduled over several sessions (see Course syllabus and organization section for more detailed information).
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
Linea AK
Responsible
Lesson period
year
Lessons will be run in the classroom, following the roles imposed the University in case of a Covid emergency, or in streaming using the Platform Zoom or Microsoft Team. In case the access to the classroom will be limited to a restricted number of students, lesson will proceed in streaming from the classroom. Roles will be published on the Ariel website.
Lessons in streaming will also be recorded and made available on the Ariel website.
Program and teaching methods will not change.
The exams will be performed in the classroom or in streaming, according to regulations imposed by the University. Platforms such as Zoom or Microsoft Teams together with exam.net and SEB will be employed for the streaming. The exams will be composed of a written and an oral test, as described for exams in standard situation. See also: https://www.unimi.it/it/studiare/frequentare-un-corso-di-laurea/seguire-il-percorso-di-studi/esami/esami-distanza-faq-gli-studenti.
Lessons in streaming will also be recorded and made available on the Ariel website.
Program and teaching methods will not change.
The exams will be performed in the classroom or in streaming, according to regulations imposed by the University. Platforms such as Zoom or Microsoft Teams together with exam.net and SEB will be employed for the streaming. The exams will be composed of a written and an oral test, as described for exams in standard situation. See also: https://www.unimi.it/it/studiare/frequentare-un-corso-di-laurea/seguire-il-percorso-di-studi/esami/esami-distanza-faq-gli-studenti.
Course syllabus
Structure of matter: Atomic structure. Atomic and molecular weights. Isotopes. Radioactivity. Mass defect.
Quantitative chemical relationships: Balancing redox reactions. Stoichiometric calculus.
The chemical equilibrium. Le Chatelier's principle. Equilibrium constants.Acid-Base reaction: Acids and bases (Arrhenius, Broensted, Lewis theories). pH. Acid-base titrations.
Atomic structure: Bohr's atomic model. De Broglie equation. Heisenberg's principle. On Schrödinger equation. Hydrogen atom. Many-electron atoms. The "aufbau" principle and the periodic table. The Chemical bond: Ionic bonds. VSEPR Theory. The Covalent bond. The Hydrogen bond and the weak interactions. Bonding in coordination compound. Lattice energy and hydration energy. Ionic, molecular and van der Waals crystals.
Gases: Gas laws and the equation of state for ideal and real gases. Elements of the kinetic theory of gases.
Solubility.
Thermodynamics: The first, the second and the third law of thermodynamics. Thermodynamic functions and chemical equilibrium.
Elettrochemistry: Cell potentials. Nernst's law. Electrolysis.
Chemical kinetics: Rates of chemical reactions, reaction order and the kinetic equation. Arrhenius's law. Catalysts.
Quantitative chemical relationships: Balancing redox reactions. Stoichiometric calculus.
The chemical equilibrium. Le Chatelier's principle. Equilibrium constants.Acid-Base reaction: Acids and bases (Arrhenius, Broensted, Lewis theories). pH. Acid-base titrations.
Atomic structure: Bohr's atomic model. De Broglie equation. Heisenberg's principle. On Schrödinger equation. Hydrogen atom. Many-electron atoms. The "aufbau" principle and the periodic table. The Chemical bond: Ionic bonds. VSEPR Theory. The Covalent bond. The Hydrogen bond and the weak interactions. Bonding in coordination compound. Lattice energy and hydration energy. Ionic, molecular and van der Waals crystals.
Gases: Gas laws and the equation of state for ideal and real gases. Elements of the kinetic theory of gases.
Solubility.
Thermodynamics: The first, the second and the third law of thermodynamics. Thermodynamic functions and chemical equilibrium.
Elettrochemistry: Cell potentials. Nernst's law. Electrolysis.
Chemical kinetics: Rates of chemical reactions, reaction order and the kinetic equation. Arrhenius's law. Catalysts.
Prerequisites for admission
Knowledge of the basic math operations, including I and II grade equations, conversion between measurements units and operations with logarithms.
The primary goal of the course is to provide a solid foundation in the basics concepts and facts of chemistry, particularly those needed for a successful understanding of other subjects for which chemistry is a prerequisite. The general chemistry course must also give the student an appreciation of the importance of chemistry to society in general and, in particular, to daily life.
The primary goal of the course is to provide a solid foundation in the basics concepts and facts of chemistry, particularly those needed for a successful understanding of other subjects for which chemistry is a prerequisite. The general chemistry course must also give the student an appreciation of the importance of chemistry to society in general and, in particular, to daily life.
Teaching methods
The teacher uses slides (PowerPoint) including both concepts and formulas of all the topics of the course program. Many exercises are also proposed to the students in order to test their understanding of the chemical concepts. Just before the "in itinere" test, an online simulation
of the exam is carried out.
of the exam is carried out.
Teaching Resources
Books:
» Tro Chimica. Un approccio molecolare. Ed. EDISES
» Whitten, Davis, Peck, Stanley Chimica. Ed. Piccin
» Atkins, Jones, Laverman Principi di chimica. Ed. ZANICHELLI
Schoolbooks:
» Demartin, Peloso Esercizi numerici di Chimica Generale, Ed. Progetto Libreria Padova.
» A. Caselli, S. Rizzato, F. Tessore Stechiometria dal testo di M. Freni e A. Sacco . Ed. EDISES
Teaching materials on Ariel site.
» Tro Chimica. Un approccio molecolare. Ed. EDISES
» Whitten, Davis, Peck, Stanley Chimica. Ed. Piccin
» Atkins, Jones, Laverman Principi di chimica. Ed. ZANICHELLI
Schoolbooks:
» Demartin, Peloso Esercizi numerici di Chimica Generale, Ed. Progetto Libreria Padova.
» A. Caselli, S. Rizzato, F. Tessore Stechiometria dal testo di M. Freni e A. Sacco . Ed. EDISES
Teaching materials on Ariel site.
Assessment methods and Criteria
The exam consists of a written test (5 stoichiometry exercises on topics chosen from those addressed during the course, to be carried out in 2 hours) and an oral test about the entire program for the definition of the final grade. Students may alternatively choose to take 3 ongoing written tests and an oral test during the course. The ongoing tests will focus on the 3 parts of the program into which the course is divided. Admission to the oral test is, in any case, subjected to pass the written test with a minimum grade of 18/30; in the event that the student decides to do the ongoing tests, the evaluation will be given by the average of the marks obtained in the three tests.
CHIM/03 - GENERAL AND INORGANIC CHEMISTRY - University credits: 10
Practicals: 16 hours
Lessons: 72 hours
Lessons: 72 hours
Professor:
Rimoldi Isabella Silvia
Linea LZ
Responsible
Lesson period
year
Lessons will be run in the classroom, following the roles imposed the University in case of a Covid emergency , or in streaming using the Platform Zoom or Microsoft Team. In case the access to the classroom will be limited to a restricted number of students, lesson will proceed in streaming from the classroom. Roles will be published on the Ariel website.
Lessons in streaming will also be recorded and made available on the Ariel website.
Program and teaching methods will not change.
The exams will be performed in the classroom or in streaming, according to regulations imposed by the University. Platforms such as Zoom or Microsoft Teams together with exam.net and SEB will be employed for the streaming. The exams will be composed of a written and an oral test, as described for exams in standard situation. See also: https://www.unimi.it/it/studiare/frequentare-un-corso-di-laurea/seguire-il-percorso-di-studi/esami/esami-distanza-faq-gli-studenti
Lessons in streaming will also be recorded and made available on the Ariel website.
Program and teaching methods will not change.
The exams will be performed in the classroom or in streaming, according to regulations imposed by the University. Platforms such as Zoom or Microsoft Teams together with exam.net and SEB will be employed for the streaming. The exams will be composed of a written and an oral test, as described for exams in standard situation. See also: https://www.unimi.it/it/studiare/frequentare-un-corso-di-laurea/seguire-il-percorso-di-studi/esami/esami-distanza-faq-gli-studenti
Course syllabus
Matter, Measurement, and Problem Solving
Atoms and Elements
Molecules, Compounds, and Chemical Equations
Chemical Quantities and Aqueous Reactions
Gases
Thermochemistry
The Quantum-Mechanical Model of the Atom
Periodic Properties of the Elements
Chemical Bonding I: Lewis Theory
Chemical Bonding II: Molecular Shapes, Valence Bond theory, and Molecular Orbital theory
Liquids, Solids, and Intermolecular Forces
Solutions
Chemical Kinetics
Chemical Equilibrium
Acids and Bases
Aqueous Ionic Equilibrium
Free Energy and Thermodynamics
Coordination compounds
Electrochemistry
Atoms and Elements
Molecules, Compounds, and Chemical Equations
Chemical Quantities and Aqueous Reactions
Gases
Thermochemistry
The Quantum-Mechanical Model of the Atom
Periodic Properties of the Elements
Chemical Bonding I: Lewis Theory
Chemical Bonding II: Molecular Shapes, Valence Bond theory, and Molecular Orbital theory
Liquids, Solids, and Intermolecular Forces
Solutions
Chemical Kinetics
Chemical Equilibrium
Acids and Bases
Aqueous Ionic Equilibrium
Free Energy and Thermodynamics
Coordination compounds
Electrochemistry
Prerequisites for admission
Knowledge of the basic math operations, including I and II grade equations, conversion between measurements units and operations with logarithms.
Teaching methods
Power point slides will be used to illustrate the topics covered. Stoichiometry exercises will performed and further exercises will be proposed by the Exam Manager online platform.
Teaching Resources
Students can use any book of General and Inorganic Chemistry.
I suggest the following:
N.J. Tro- Chimica. Un approccio molecolare. Edises
Bertini-Luchinat-Mani. Stechiometria. Un avvio allo studio della chimica. Piccin
I suggest the following:
N.J. Tro- Chimica. Un approccio molecolare. Edises
Bertini-Luchinat-Mani. Stechiometria. Un avvio allo studio della chimica. Piccin
Assessment methods and Criteria
The exam will be performed by both a written and an oral test. The written test will contain 5 stoichiometry exercises e will last 2 hours; the oral exam will be performed only if the score obtained at written test is >=18.
Students may also partecipate to in itinere exams (3 test planned). If the average score of the in itinere tests is > or = 18, students will have access to the oral test.
Students may also partecipate to in itinere exams (3 test planned). If the average score of the in itinere tests is > or = 18, students will have access to the oral test.
CHIM/03 - GENERAL AND INORGANIC CHEMISTRY - University credits: 10
Practicals: 16 hours
Lessons: 72 hours
Lessons: 72 hours
Professor:
Romanelli Alessandra
Professor(s)