APPLIED CHEMISTRY
Possibility of supporting intermediate (oral) tests only for those attending lessons of more than 75%
In other cases: single oral exam with problems to solve on the blackboard at the end of the course
The purpose of the course is to contribute to the acquisition of technical-scientific knowledge, which allow to know the basics of chemistry together with the IT, EU and international legislation on the treatment of chemical substances. All this, in order to be able to formulate and manage reliable hypotheses on the possible developments of negotiation activities and negotiations to promote the defense of human rights and support for peace (nuclear and chemical disarmament), and on the other hand to guarantee food, environmental and health.
The experimental scientific method: observations and hypotheses. Physics, chemistry and matter, physical phenomena and chemical phenomena. Basic concepts on measures. Extensive and intensive sizes. SI unit of measurement
Basic atomic theories: Dalton's theory. The atom subdivided into nucleus + electrons. The concept of electric charge and positive or negative ion formation. Molecular formulas. Classification of chemical reactions: synthesis, decomposition, exchange and double exchange. Reagents and products; Quantitative laws: the law of mass conservation and the role of balancing a chemical reaction.
Electronic configurations.
Quantitative laws of chemistry, atomic mass unit and isotopes
Stoichiometry principles:
The size and molecular weight. The Avogadro number. Exercises on relative weights and absolute weights. Introduction to quantitative calculations. Principles of stoichiometry. From grams to moles and from moles to grams: weight ratios. Stoichiometric ratios in multi-stage reactions. Limiting reagent. Yield of a reaction.
States of matter and changes of state. Definition of specific heat at constant volume and at constant pressure. The latent heat. The vapor pressure. Evaporation and boiling. Melting - solidification curves, evaporation - condensation and sublimation - brining. Points bivarian, single and triple points.
The gaseous state:
ideal gas model and state variables. Ideal gas law: Boyle's law and the two laws of Gay-Lussac. The existence of absolute temperature and absolute zero.
The liquid state:
Characteristics of liquids. Solvation and solution formation. Polarity differences: differences between water / benzene and water / ethanol solutions. Miscibility. The concentration of solutions, how to express the concentrations: the molarity and the molality. Density.
The equilibrium reactions. Overview of kinetics and activation energy. The equilibria in solution (aqueous). The equilibrium constant.
Acids and bases in solution:
The Arrhènius acid-base theory and the Bronsted theory. The conjugated acid-base pairs. Acids and bases in water. Water as an amphoteric reagent (both base and acid) and self-protection balance. Ionic product of water. PH and pOH.
Basic acid balances:
Strong acids and bases. Weak acids and bases: the dissociation constant.
Hydrolysis in solution
The solutions of salts in water.
Lecture notes, published from time to time in a private Google Drive folder
Lessons will be held from October 11, 2018, from 1 to 3 times a week: lessons are composed of 2 hours of ordinary duration of 45 minutes each, in the remaining 15 minutes you can ask for clarification also on previous lessons. Students are strongly invited to attend classes and exercises.
Teacher's contacts:
Tel: +39 3298878009 (from 10.00 to 20.00)
Email: info@lucianocarta.it