CHEMISTRY - MODULE A
It is essential condition for addressing issues of Module A of the course the knowledge of concepts and basic fundamentals of mathematics (eg integral, exponential, logarithm, derivative, vector, tensor, matrix ...) and physical (eg the concepts of force, pressure, speed, potential energy, kinetic energy ...)
Module A of the course, implemented to be suitable for students of science-based degree programs, it offers a wide and timely introduction to the basic principles, theoretical and experimental of general chemistry, with frequent references to the real world. We expect, as learning results: i) understanding of the atomic model and its application to electronic configurations and the periodic table; ii) the thermochemical aspects and treated kinetic; iii) the theory of acids and bases; iv) chemical balance. Not to be neglected are the abilities in i) drawing Lewis structures; ii) predict the stereochemistry by VSEPR theory; iii) represent molecular orbital diagrams for simple diatomic molecules; iv) perform simple calculations in stoichiometry (including the reactions) balance. Finally, it is essential to learn to use periodic properties, intermolecular interactions, concepts of thermodynamics, kinetics and chemical equilibrium for the interpretation of wide phenomenology of general chemistry.
The main contents of the Module A are summarized as follows:
1. Definitions of matter, states of aggregation, element, compound, mixture, atom isotope.
2. Evolution of the atomic model. Elements of quantum mechanics: Schroedinger wave equation for hydrogen-like and electron atoms; atomic orbital; electron spin; Electronic configurations of the elements.
3. The periodic table and periodic properties: atomic radii, ionic, metallic, covalent; ionization energy, electron affinity, electronegativity.
4. The ionic bond: lattice energy, Born-Haber cycle. The covalent bond: Lewis formulas and their exceptions; partially polar covalent bond, dative and coordinative. Theory ''Valence Shell Electron Pair Repulsion''. Hybrid orbital bonding model. Molecular orbital model. The metallic bond: Sea theory of electrons; band theory for metals and semiconductors.
5. United liquid, solid and gaseous. Phase transitions and phase diagrams.
6. Chemical thermodynamics: enthalpy, entropy, Gibbs free energy; first, second and third law of thermodynamics.
7. Chemical equilibrium: thermodynamic equilibrium constants; Le Chatelier''s principle.
8. Chemical kinetics: reaction time; reaction of the first order, second, zero; Arrhenius equation; theory ''collisions'' and ''activated complex''.
9. Acids and bases: Arrhenius definitions, Broensted, Lewis; acid-base; ionization constant of the acid and base; pH scale. pH of aqueous solutions of strong acids, weak acids, strong bases, of weak bases; titrations.
10. Basics of radiochemistry and nuclear chemistry.
11. Solubility equilibria in water. Sparingly soluble salts: the effect common ion; effect of pH on the dissolution of a salt in aqueous solution.
12. Elements of electrochemistry.
13. Stoichiometry: the relationship between mass and mole; the balance of the reactions; preparing non-reactive or reactive solutions; conducting reactions in the absence or in the presence of limiting agent.
The Module A and Module B Course not provide for the adoption of a single reference text. Teachers recommend a set of books of general chemistry and organic chemistry (in Italian or English). Students can choose what suits them best. The set of suggested texts is not mentioned here because it can vary each academic year. In addition to the lessons, the teacher of Module B provides the projected slides, which are considered guidelines to the study, not substitute material of a textbook.
The student can choose one of these two texts for the Form B:
P. Atkins, L. Jones - Chimica Generale - 2a edizione Zanichelli
Martin S. Silberberg - Chimica - 3a edizione McGraw-Hill