Menù principale
B031653 - Fundamentals of General Chemistry
Main information
Teaching Language
Course Content
Suggested readings
Learning Objectives
Prerequisites
Teaching Methods
Further information
Type of Assessment
Course program
Sustainable Development Goals 2030
Academic Year 2022-23
Course year
First year - First Semester
Belonging Department
Architecture (DIDA)
Course Type
Single education field course
Scientific Area
CHIM/03 - GENERAL AND INORGANIC CHEMISTRY
Credits
3
Teaching Hours
24
Teaching Term
19/09/2022 ⇒ 16/12/2022
Attendance required
No
Type of Evaluation
Final Grade
Course Content
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Course program
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Lectureship
- Part A CONTI LUCA
- Part A VALTANCOLI BARBARA
- Part B CONTI LUCA
- Part B GIORGI CLAUDIA
Teaching Language - Part A
Italian
Teaching Language - Part B
Lessons are in Italian.
Course Content - Part A
This course provides basic knowledge of general chemistry. It aims to introduce the student to properties of matter, its composition and structure, chemistry equilibrium, thermodynamic and kinetic chemistry, electrochemistry and electrolysis.
Course Content - Part B
This course provides basic knowledge of general chemistry. It aims to introduce the student to properties of matter, its composition and structure, chemistry equilibrium, thermodynamic and kinetic chemistry, electrochemistry and electrolysis.
Suggested readings - Part A (Search our library's catalogue)
«Chimica, materia, tecnologia, ambiente» I. Bertini, C. Luchinat, F. Mani, Casa Editrice Ambrosiana;
Suggested readings - Part B (Search our library's catalogue)
«Chimica, materia, tecnologia, ambiente» I. Bertini, C. Luchinat, F. Mani, Casa Editrice Ambrosiana;
Learning Objectives - Part A
Acquire structural knowledge of matter (from the structure of atoms to their chemical bond, from intermolecular interaction to aggregation states) and understand concepts of its chemical transformation through chemical reactions. Students will develop a basic knowledge of chemistry, scientific methods and interpretative models from examples and quantitative applications of the laws of nature with particular emphasis on the field of the degree program.
Competence acquired: Students will develop the ability to comprehend chemical structures and concepts in chemical reactions.
Skills acquired (at the end of the course): Students will be able to use a wide variety of examples to describe basic concepts of chemistry.
Competence acquired: Students will develop the ability to comprehend chemical structures and concepts in chemical reactions.
Skills acquired (at the end of the course): Students will be able to use a wide variety of examples to describe basic concepts of chemistry.
Learning Objectives - Part B
Acquire structural knowledge of matter (from the structure of atoms to their chemical bond, from intermolecular interaction to aggregation states) and understand concepts of its chemical transformation through chemical reactions. Students will develop a basic knowledge of chemistry, scientific methods and interpretative models from examples and quantitative applications of the laws of nature with particular emphasis on the field of the degree program.
Competence acquired: Students will develop the ability to comprehend chemical structures and concepts in chemical reactions.
Skills acquired (at the end of the course): Students will be able to use a wide variety of examples to describe basic concepts of chemistry.
Prerequisites - Part A
Teaching Methods - Part A
Contact hours for: Lectures (hours): 24
Teaching Methods - Part B
Lectures (hours): 8
Further information - Part A
Frequency of lectures:
Recommended for classes
Recommended for classes
Further information - Part B
Frequency of lectures:
Recommended for classes
Type of Assessment - Part A
written examination (at least seven exam sessions for year)
Type of Assessment - Part B
written examination (at least seven exam sessions for year)
Course program - Part A
Structure of atoms, Mole concept, states of matter, light, quantum numbers, atomic orbitals, periodic properties of elements, bonding valence, molecular geometry, ionic bonding, metallic bonding, Van der Waals strengths, hydrogen bonding, gases, chemical balance, entropy, enthalpy and free energy , pH, acids and bases, solubility and insoluble compounds, chemical equilibrium in oxidation-reduction reactions, electrolysis, chemical kinetics, chemical catalysis.
Course program - Part B
Structure of atoms, Mole concept, states of matter, light, quantum numbers, atomic orbitals, periodic properties of elements, bonding valence, molecular geometry, ionic bonding, metallic bonding, Van der Waals strengths, hydrogen bonding, gases, chemical balance, entropy, enthalpy and free energy , pH, acids and bases, solubility and insoluble compounds, chemical equilibrium in oxidation-reduction reactions, electrolysis, chemical kinetics, chemical catalysis.