The course aims to provide the student with the necessary tools to frame in a logical and consequential manner, not only descriptive, the main chemical and chemical-physical phenomena related to the microscopic and macroscopic behaviors of matter.
Curriculum
teacher profile teaching materials
Mass relationship in chemical reactions; redox and oxidation number.
Solids: metallic crystal, ionic crystal, molecular crystal, covalent crystal.
Gases: the ideal gas law, partial pressures.
Thermodynamics: nature and type of energy, the zero law of T.D., heat capacity, the first law of TD and Enthalphy, the second law of TD, entropy and free energy, equilibrium conditions.
Liquids: phase change, phase diagrams.
Chemical equilibrium: the equilibrium constant and the equilibrium law
Properties of liquid solutions and concentration units
Course slides on moodle site
Programme
Atom Structure: orbitals, poly-electron atoms, periodic table; covalent bond, delocalized bond.Mass relationship in chemical reactions; redox and oxidation number.
Solids: metallic crystal, ionic crystal, molecular crystal, covalent crystal.
Gases: the ideal gas law, partial pressures.
Thermodynamics: nature and type of energy, the zero law of T.D., heat capacity, the first law of TD and Enthalphy, the second law of TD, entropy and free energy, equilibrium conditions.
Liquids: phase change, phase diagrams.
Chemical equilibrium: the equilibrium constant and the equilibrium law
Properties of liquid solutions and concentration units
Core Documentation
Texts reported in classCourse slides on moodle site
Attendance
attendance at the course is not mandatory but usefulType of evaluation
Test in presence consisting of multiple choice and open questions, both theoretical and numerical teacher profile teaching materials
Mass relationship in chemical reactions; redox and oxidation number.
Solids: metallic crystal, ionic crystal, molecular crystal, covalent crystal.
Gases: the ideal gas law, partial pressures.
Thermodynamics: nature and type of energy, the zero law of T.D., heat capacity, the first law of TD and Enthalphy, the second law of TD, entropy and free energy, equilibrium conditions.
Liquids: phase change, phase diagrams.
Chemical equilibrium: the equilibrium constant and the equilibrium law
Properties of liquid solutions and concentration units
Course slides on moodle site
Programme
Atom Structure: orbitals, poly-electron atoms, periodic table; covalent bond, delocalized bond.Mass relationship in chemical reactions; redox and oxidation number.
Solids: metallic crystal, ionic crystal, molecular crystal, covalent crystal.
Gases: the ideal gas law, partial pressures.
Thermodynamics: nature and type of energy, the zero law of T.D., heat capacity, the first law of TD and Enthalphy, the second law of TD, entropy and free energy, equilibrium conditions.
Liquids: phase change, phase diagrams.
Chemical equilibrium: the equilibrium constant and the equilibrium law
Properties of liquid solutions and concentration units
Core Documentation
Texts reported in classCourse slides on moodle site
Attendance
attendance at the course is not mandatory but usefulType of evaluation
Test in presence consisting of multiple choice and open questions, both theoretical and numerical