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The first edition of Concise Chemical Thermodynamics proved to be a very popular introduction to a subject many undergraduate students perceive as a difficult topic, because it presented thermodynamics with practical chemical examples in a way that used little mathematics. In this second edition the text has been carefully revised to ensure the same approach is maintained. Students are led to an understanding of Gibbs free energy early on, and the concept is demonstrated in several different fields. The book includes discussions of experimental equilibrium data, an introduction to electrochemistry, a brief survey of Ellingham diagrams, and a treatment of entropy without reference to the Carnot cycle. A new chapter on computer-based methods in thermodynamics has been added to reflect current technological trends and practices. Thermodynamic data has been revised in light of information provided by the work of the Scientific Group Thermodata Europe, to ensure that the symbols and units reflect the latest IUPAC rules. In addition, the problems and examples have been updated, replaced, and amplified to reflect current understanding and concerns. Undergraduate students of chemistry will find this an ideal introduction to chemical thermodynamics.
For first year students of chemistry and chemical engineering, this book presents thermodynamics using practical chemical examples in a way that uses very little mathematics.
Chemical engineers face the challenge of learning the difficult concept and application of entropy and the 2nd Law of Thermodynamics. By following a visual approach and offering qualitative discussions of the role of molecular interactions, Koretsky helps them understand and visualize thermodynamics. Highlighted examples show how the material is applied in the real world. Expanded coverage includes biological content and examples, the Equation of State approach for both liquid and vapor phases in VLE, and the practical side of the 2nd Law. Engineers will then be able to use this resource as the basis for more advanced concepts.
The first two editions of Concise Chemical Thermodynamics proved to be a very popular introduction to a subject many undergraduate students perceive to be difficult due to the underlying mathematics. With its concise explanations and clear examples, the text has for the past 40 years clarified for countless students one of the most complicated branches of science. Following in the tradition of its predecessors, this Third Edition continues to offer a practical, example-based exploration of a critical topic, maintaining academic rigor but eschewing complicated calculations. Updated to reflect new concerns in the 21st century, this edition now includes: An extensive outlook on the world’s current energy consumption and the role of renewable energy in the future An example of an exothermic reaction through a discussion of the Mond process for extracting and purifying nickel The use of Mathcad® to calculate a plot of Gibbs energy for a reaction mixture versus the extent of reaction An explanation of the Lambda sensor, which reduces vehicle emissions The use of FactSage software to calculate and describe the production of silicon in an arc (oven) furnace This latest edition re-works problems that have proven to be the most difficult for students and adds several new ones to further amplify complex areas. The book also provides an updated list of suggested readings. Keeping pace with new technology and the shift in emphasis to green chemistry, this volume provides an up-to-date treatment of a foundational topic.
Thermodynamics, like classical music, is an acquired taste. The initiation must be sensitively carried out, otherwise the mathematical rigour, like the formal structure of the music, acts to discourage a deeper relationship. It is sad but true that some students, both of thermodynamics and of Bach, never recover from the initial shock. In this, we are all losers. In this book, therefore, I have tried to pre sent thermodynamics in a way which uses little mathematics, but which includes many practical and lively examples. I hope it will provide a basis for an intro ductory course at Honours Degree level, and will also suffice for Higher National Diploma and Certificate students. In general, my aim has been to develop an understanding of Gibbs free energy fairly early on and then to apply this concept in several different fields. I have used many examples from chemical industry, in the firm belief that the basic usefulness of the subject must be demonstrated. I have therefore included a brief discussion of Ellingham diagrams in Chapter 10 and for a similar reason have omitted any mention of the Carnot cycle. I have used symbols consistent with the recommendations of the International Union of Pure and Applied Chemistry and have adopted units of the Systeme International d'Unites (SI).
The first two editions of Concise Chemical Thermodynamics proved to be a very popular introduction to a subject many undergraduate students perceive to be difficult due to the underlying mathematics. With its concise explanations and clear examples, the text has for the past 40 years clarified for countless students one of the most complicated bran
Fundamentals of Chemical Engineering Thermodynamics is the clearest and most well-organized introduction to thermodynamics theory and calculations for all chemical engineering undergraduates. This brand-new text makes thermodynamics far easier to teach and learn. Drawing on his award-winning courses at Penn State, Dr. Themis Matsoukas organizes the text for more effective learning, focuses on "why" as well as "how," offers imagery that helps students conceptualize the equations, and illuminates thermodynamics with relevant examples from within and beyond the chemical engineering discipline. Matsoukas presents solved problems in every chapter, ranging from basic calculations to realistic safety and environmental applications.
This book is a physical chemistry textbook that presents the essentials of physical chemistry as a logical sequence from its most modest beginning to contemporary research topics. Many books currently on the market focus on the problem sets with a cursory treatment of the conceptual background and theoretical material, whereas this book is concerned only with the conceptual development of the subject. Comprised of 19 chapters, the book will address ideal gas laws, real gases, the thermodynamics of simple systems, thermochemistry, entropy and the second law, the Gibbs free energy, equilibrium, statistical approaches to thermodynamics, the phase rule, chemical kinetics, liquids and solids, solution chemistry, conductivity, electrochemical cells, atomic theory, wave mechanics of simple systems, molecular orbital theory, experimental determination of molecular structure, and photochemistry and the theory of chemical kinetics.