Download Free Concise Physical Chemistry Book in PDF and EPUB Free Download. You can read online Concise Physical Chemistry and write the review.

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.
This book is an introduction to statistical mechanics, intended for advanced undergraduate or beginning graduate students.
Molecular Physical Chemistry: A Concise Introduction focuses on two main aspects of physical chemistry: thermodynamics and reaction dynamics. By looking at the properties of the atoms and molecules that constitute matter, it makes use of results from modern experiments conducted on small numbers of molecules. These molecular properties allow the behaviour of larger groups of molecules to be predicted. This is in contrast to conventional approaches which are based upon how the subjects have developed historically. It attempts to show how some basic concepts can be easily applied to give verifiable results in simple systems before extending them to more complicated scenarios. The text is intended as an aid to understanding these central topics of physical chemistry, rather than an introduction to them, and some familiarity with them is assumed throughout. Worked examples and problems are given at the end of each chapter. Molecular Physical Chemistry: A Concise Introduction will be welcomed by graduate and advanced undergraduate students, as well as lecturers. Upon completion of this book the reader will see its subject matter as an integral part of their whole approach to chemistry. "Professor McLauchlin is certainly owed a debt of gratitude by the chemical community for this effort to bring enjoyment and understanding to the future generation. It will be interesting to see if this experiment helps students replace the fear of physical chemistry by an appreciation of its power and beauty." Professor William Klemperer, University of Harvard
This textbook is divided into six parts: theoretical concepts and hydrogen, the s-block, the p-block, the d-block, the f-block, and other topics (the nucleus and spectra). It also focuses on the commercial exploitation of inorganic chemicals and the treatment of the inorganic aspects of environmental chemistry has also been extended.· Atomic structure and the Periodic table· Introduction to bonding· The ionic bond· The covalent bond· The metallic bond· General properties of the elements· Coordination compounds· Hydrogen and the hydrides· Group 1 - The alkali metals· The chlor-alkali industry· Group 2 - The alkaline earth elements· The group 13 elements· The group 14 elements· The group 15 elements· Group 16 - the chalcogens· Group 17 - the halogens· Group 18 - the noble gases· An introduction to the transition elements· Group 3 - The scandium group· Group 4 - The titanium group· Group 5 - The vanadium group· Group 6 - The chromium group· Group 7 - The manganese group· Group 8 - The iron group· Group 9 - The cobalt group· Group 10 - The nickel Group· Group 11 - The copper group: Coinage metals· Group 12 - The zinc group· The lanthanide series· The actinides· The atomic nucleus· Spectra
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
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.
"Physical Chemistry in Depth" is not a stand-alone text, but complements the text of any standard textbook on "Physical Chemistry" into depth having in mind to provide profound understanding of some of the topics presented in these textbooks. Standard textbooks in Physical Chemistry start with thermodynamics, deal with kinetics, structure of matter, etc. The "Physical Chemistry in Depth" follows this adjustment, but adds chapters that are treated traditionally in ordinary textbooks inadequately, e.g., general scaling laws, the graphlike structure of matter, and cross connections between the individual disciplines of Physical Chemistry. Admittedly, the text is loaded with some mathematics, which is a prerequisite to thoroughly understand the topics presented here. However, the mathematics needed is explained at a really low level so that no additional mathematical textbook is needed.
This elegant book provides a student-friendly introduction to the subject of physical chemistry. It is by the author of the very successful Basic Chemical Thermodynamics and is written in the same well-received popular style. It is concise and more compact than standard textbooks on the subject and emphasises the two important topics underpinning the subject: quantum mechanics and the second law of thermodynamics. Both topics are challenging to students because they focus on uncertainty and probability. The book explains these fundamental concepts clearly and shows how they offer the key to understanding a wide range of chemical phenomena including atomic and molecular spectra, the structure and properties of solids, liquids and gases, chemical equilibrium and the rates of chemical reactions.This revised edition has enabled improvements and corrections to be made.
A concise dictionary of fundamental physical chemistry terms, equations, and concepts, useful as a supplement and reference for physics, chemistry, life science, and engineering students or professionals.
This book introduces both physical and biological scientists to important thermodynamic and kinetic interpretations of living systems that involve major conceptual developments in the application of physio-chemical ideas. A concluding discussion relates these developments to other widely discussed ideas that have been recently applied to living systems, including thermodynamic aspects of evolution, information theory, and hierarchy and the question of reductionism. Students and researchers in both physical and biological science will find this mathematically simplified account to be a clear and accessible introduction to the physical chemistry of biological organization.