|Monday||12:30 PM - 2:30 PM||lesson||Lecture Hall Gino Tessari||from Oct 28, 2013 to Jan 31, 2014|
|Wednesday||8:30 AM - 10:30 AM||lesson||Lecture Hall Gino Tessari||from Oct 30, 2013 to Jan 31, 2014|
|Thursday||8:30 AM - 10:30 AM||lesson||Lecture Hall Gino Tessari||from Oct 31, 2013 to Jan 31, 2014|
The aim of the course is to acquire the main concepts of General Chemistry and some notions of Inorganic Chemistry. In particular:
- models and general concepts for the explanation and prediction of some physics and chemistry properties of systems of increasing complexity: single atoms, ions, molecules, pure substances, macroscopic systems of one or more components;
- concepts and methods to qualitatively and quantitatively predict the variations of the intensive and extensive properties of chemical systems in evolution.
Introduction. Chemical and physical properties of matter and their measurements.
Elements, atoms and compounds.
Nomenclature of inorganic compounds.
Types of chemical reactions. Reaction stoichiometry.
Ideal and real gases.
Thermochemistry. Internal energy and enthalpy. Standard enthalpy of reaction and formation.
Atomic structure. Atomic orbitals. Electronic configuration, Aufbau principle.
Periodic properties: atomic and ionic radii, ionization energy, electron affinity, electronegativity.
Elementary notions on the ionic bond. Ionic compounds.
Covalent bond. Lewis formula. Resonance. Molecular geometry and polarity. Orbital hybridisation. Single and multiple bonds.
Properties of liquids. Solutions. Binary liquid mixtures. Distillation.
Properties of solids.
Chemical kinetics. Arrhenius equation. Reaction mechanisms.
Chemical equilibrium. Equilibrium constant.
Acid-base equilibrium. Acid, base and salt solutions. Acid-base titration. Buffer solutions.
Entropy. Spontaneous processes. Gibbs free energy. Standard free energy of reaction and formation.
Electrochemical cells. Electrolysis.
The final examination consists of a written part and of an optional oral part.