معلومات المقرر

     This course entitled classical thermodynamics is intended for first-year common core students of the Faculty of Technology. It is drawn up in accordance with the framework established by the Ministry of Higher Education and Scientific Research (MESRS) of the People's Democratic Republic of Algeria.

     The course is spread over seven chapters. The first covers basic concepts and definitions, as well as terminology frequently used in thermodynamics. Towards the end of this chapter we presented the ideal gas model as an example of thermodynamic systems and the classical laws governing its behavior and at the end a synthesis of these laws which highlights the equation of state of the ideal gas PV = nRT, Some examples of the equations of state of real gases are cited for comparison and the meaning of the parameters appearing there, characterizing each real gas.

     The second chapter is devoted to thermometry, a field which concerns the identification or measurement of temperature according to the thermometric scale used. There the so-called “Zero” principle in thermodynamics is stated. It is mainly the basis of the temperature measurement technique. But its interest is not limited only to the field of thermometry. Its importance is clearer in the study of internal thermal balances of thermodynamic systems and possibly with the external environment with which they interact. In this chapter the temperature measurement scales are reviewed. Particular emphasis is placed on linear scales and more particularly those called centesimals. obviously to finish, some types of thermometers and their operating principles are explained. A particular type of thermometer called a pyrometer, whose operating principle is different, is mentioned towards the end.

Chapter three covers the first principle in thermodynamics or the principle of conservation of energy. Firstly, two transfer quantities are highlighted in this case; work and heat, which are described separately as two forms of energy, the difference between which lies in their impact on the system. Subsequently the first principle is stated by admitting the existence of a certain state function called internal energy and denoted U, the variation of which is due to the exchange of work and heat. Some consequences are immediately drawn from this principle as that of an isolated system. More particularly a new state function called enthalpy and denoted H is introduced to study monobaric or isobaric transformations. Later in this chapter, the application of the first law to the ideal gas model revealed two ideal gas laws; Joule's first and second law. These two laws allowed an easy calculation of the energy quantities of the ideal gas during simple transformations.

     Chapter four is devoted to the application of the first principle to chemical reactions commonly called thermochemistry. This is a field concerned with the calculation of the heat accompanying chemical reactions, referred to as heat of reaction. We mainly distinguish between them types of heat; the heats at constant volume and the heats at constant pressure, which are calculated by the variation of the internal energy U and the variation of the enthalpy H respectively. It is a very valuable tool as it allows us to calculate the heat of reaction without having to actually carry out the reaction in question, while basing it on a set of tabulated values called enthalpies of formation and/or heats of formation. reactions calculated or measured previously.