Saggion A Faraldo R And Pierno M 2019 Thermodynamics Fundamental Principles And Applications Springer Nature Ekb Pdf Free

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Thermodynamics

This book offers a comprehensive overview of thermodynamics. It is divided into four parts, the first of which equips readers with a deeper understanding of the fundamental principles of thermodynamics of equilibrium states and of their evolution. The second part applies these principles to a series of generalized situations, presenting applications that are of interest both in their own right and in terms of demonstrating how thermodynamics, as a theory of principle, relates to different fields. In turn, the third part focuses on non-equilibrium configurations and the dynamics of natural processes. It discusses both discontinuous and continuous systems, highlighting the interference among non-equilibrium processes, and the nature of stationary states and of fluctuations in isolated systems. Lastly, part four introduces the relation between physics and information theory, which constitutes a new frontier in fundamental research. The book includes step-by-step exercises, with solutions, to help readers to gain a fuller understanding of the subjects, and also features a series of appendices providing useful mathematical formulae. Reflecting the content of modern university courses on thermodynamics, it is a valuable resource for students and young scientists in the fields of physics, chemistry, and engineering.
Thermodynamics: Basic Principles and Engineering Applications

This new edition is designed for a one semester introductory course in thermodynamics, either in mechanical or aerospace engineering, or in an engineering science program. The book contains a section on the geometry of curves and surfaces, in order to review those parts of calculus that are needed in thermodynamics for discussing the thermodynamic equations of state of simple compressible substances, and their approximation by linear interpolation. It presents the First Law of Thermodynamics as an equation for the time rate of change of system energy, the same way that Newton's Law of Motion, an equation for the time rate of change of system momentum, is presented in Dynamics, and presents the Second Law mathematically as a lower bound for the time rate of change of system entropy. Moreover, this emphasis illustrates the importance of thermodynamics to the study of heat transfer and fluid mechanics. These laws and the associated new thermodynamic properties, energy and entropy, are introduced with extended motivating discussions rather than as abstract postulates, and connections are made with kinetic theory. Thermodynamic properties of the vaporizable liquids- condensible gases needed for the solution of practical thermodynamic problems (e.g. water and a typical refrigerant) are presented in a unique tabular format that is both simple to understand and easy to use. All theoretical discussions throughout the book are accompanied by worked examples illustrating their use in practical devices. These examples of the solution of various kinds of thermodynamic problems are all structured in exactly the same way in order to make, as a result of the repetition, the solution of new problems easier for students to follow, and ultimately, to produce themselves. Many additional problems are provided, half of them with answers, for students to do on their own. Maximizes student understanding of problem solving by creating a single structure to solve all thermodynamic state change problems; Presents tables of thermodynamic functions of vaporizable liquids in a unique format that is easy to understand and easy to use; Reinforces concepts covered with end of chapter problems. Request lecturer material: sn.pub/lecturer-material.
Thermodynamics

Author: William C. Reynolds
language: en
Publisher: Cambridge University Press
Release Date: 2018-04-30
This concise text provides an essential treatment of thermodynamics and a discussion of the basic principles built on an intuitive description of the microscopic behavior of matter. Aimed at a range of courses in mechanical and aerospace engineering, the presentation explains the foundations valid at the macroscopic level in relation to what happens at the microscopic level, relying on intuitive and visual explanations which are presented with engaging cases. With ad hoc, real-word examples related also to current and future renewable energy conversion technologies and two well-known programs used for thermodynamic calculations, FluidProp and StanJan, this text provides students with a rich and engaging learning experience.