Lessons (52 h)
Atoms, molecules and ions (6 hours)
Elemental substances, mixtures and compounds. Dalton's atomic theory, laws of chemical combinations. Mendeleev's periodic table. Atoms, chemical elements and isotopes. The modern periodic table. Molecules, compounds and molecular formulas. Molecular mass, formula weight. Avogadro number and concept of mole. Nomenclature.
Constitution and properties of matter (14 hours)
Atomic structure and outline of quantum mechanics: photoelectric effect, De Broglie relationship, Heisenberg uncertainty principle, introduction to the Schrödinger equation. Quantum numbers and atomic orbitals. Electronic structure and properties of atoms: Pauli's principle, Hund's rule and "aufbau prinzip". Periodic properties of the elements. Ionic, covalent and metallic bond. Symbols and structure by Lewis. Rule of the octet. Resonance. Molecular geometry according to VSEPR. Valence bond theory. Hybridization and steric number. Pauling electronegativity and molecule polarity. Molecular orbitals theory. Interactions between molecules. Hydrogen bond. Weak intermolecular forces.
Physical State of matter (6 hours)
Properties of gases. Ideal gas laws. Equation of state of ideal gases. Gas mixtures and partial pressures. Non ideal gases. Properties of liquids. State transition and phase equilibria. Vapor pressure. Surface tension. Viscosity. Qualitative description of water and carbon dioxide state diagrams. Dissolution process and types of solvents most commonly used. Principles of solubility. Roult's law. Colligative properties.Ionic, covalent, molecular and metallic solids. Crystal lattices.
Control of chemical reactions (10 hours)
First law of thermodynamics. General concepts of thermochemistry and energy in chemical reactions. Enthalpy function and Hess law function. Enthalpy of formation, reaction and combustion. Second and third principle of thermodynamics: entropy state function and Gibbs free energy state function. Spontaneity of a chemical reaction. Thermodynamic description of the phase transition.
Chemical Kinetics. Speed of a chemical reaction. Reaction mechanism. Activation energy. Catalysis.
Chemical equilibrium. Law of mass action. Balance constant. Principle of Le Châtelier's mobile equilibrium.
Chemical transformations in aqueous solution (9 hours)
Definitions of acids and bases according to Arrhenius, Bronsted-Lowry, Lewis. Strong and weak electrolytes. Ionic product of water, pH, pOH, pKw. Strength of acids and bases. Degree of ionization. Polyprotic acids. Common ion effect. Reactions between acids and bases. Hydrolysis of salts. pH calculation. Buffer solutions. Acid-base titrations. Slightly soluble salts and solubility product. Effect of the common ion. Influence of pH.
Electrochemistry (7 hours)
Electrochemical and electrolytic cells. Standard reduction potentials. Free energy and f.e.m .. Nernst equation. EMF and equilibrium constant.. Electrolysis and Faraday laws.

Exercises (18 hours)
Unit of measurement, dimensional analysis. Errors in measurements and significant figures. Chemical formulas. Mole and number of molecules. Atomic weight, molecular weight. Percentage composition and elementary analysis. Calculation of empirical formulas. Stoichiometry and balancing of chemical equations. Yield and limiting reagent. Reactions in aqueous solution. Gas phase reactions. Oxidation numbers. Oxidation-reduction reactions and their balancing.
Ideal gases and gas mixtures. Calculation of concentrations and stoichiometry of reactions in aqueous solution. Dilution. Colligative properties of solutions. Reaction and combustion enthalpy. Chemical equilibrium. Acidity and basicity of solutions, pH calculation. Buffer solutions.
Solubility, effect of the common ion, influence of pH. EMF of a galvanic cell.