Manual of Symbols and Terminology for Physicochemical Quantities and Units—Appendix II


Book Description

Manual of Symbols and Terminology for Physicochemical Quantities and Units–Appendix II: Definitions, Terminology and Symbols in Colloid and Surface Chemistry, Part II: Heterogeneous Catalysis presents the pertinent definitions and terminologies concerning colloid and surface chemistry. This manual has been prepared by the Commission on Colloid and Surface Chemistry of the Division of Physical Chemistry of the International Union of Pure and Applied Chemistry. This book is comprised of one chapter subdivided into three sections. Section 1 presents a summary of definitions of several concepts involving surface chemistry. Section 2 presents a list of abbreviations and symbols used in colloid and surface chemistry. Section 3 presents a comprehensive index of symbols and terms that are arranged in alphabetical order to guide the readers. This book is a valuable resource for chemists and electrochemists.




Manual of Symbols and Terminology for Physicochemical Quantities and Units


Book Description

Manual of Symbols and Terminology for Physicochemical Quantities and Units, 1979 Edition contains physical quantity tabulations of products. The Commission on Symbols, Terminology, and Units is a part of the Division of Physical Chemistry of the International Union of Pure and Applied Chemistry. Its general responsibilities are to secure clarity and precision, and wider agreement in the use of symbols, by chemists in different countries, among physicists, chemists, and engineers, and by editors of scientific journals. This book is composed of 13 chapters, and begins with the determination of physical quantities and symbols for physical quantities, which are generally organized in a dimensional system built upon seven base quantities. The succeeding chapters deal with recommended names and symbols for quantities in chemistry and physics. These topics are followed by discussions on units and symbols for units, numbers that printed in upright type. Other chapters describe physical quantities, units, and numerical values, recommended mathematical symbols, symbols for chemical elements,nuclides, and particles. The final chapters consider the values of some fundamental constants. This book will be of value to analytical and physical chemists.







Quantities, Units and Symbols in Physical Chemistry


Book Description

Prepared by the IUPAC Physical Chemistry Division this definitive manual, now in its third edition, is designed to improve the exchange of scientific information among the readers in different disciplines and across different nations. This book has been systematically brought up to date and new sections added to reflect the increasing volume of scientific literature and terminology and expressions being used. The Third Edition reflects the experience of the contributors with the previous editions and the comments and feedback have been integrated into this essential resource. This edition has been compiled in machine-readable form and will be available online.




Quantities, Units and Symbols in Physical Chemistry


Book Description

The first IUPAC Manual of Symbols and Terminology for Physicochemical Quantities and Units was published in 1969 with the objective of 'securing clarity and precision, and wider agreement in the use of symbols, by chemists in different countries, among physicists, chemists and engineers, and by editors of scientific journals'. Subsequent revisions have taken account of many developments in the field and were also substantially expanded and improved in presentation in several new editions of what is now widely known as the ‘Green Book of IUPAC’. This abridged version of the forthcoming 4th edition reflects the experience of the contributors and users of the previous editions. The book has been systematically brought up to date and provides a compilation of generally used terms and symbols with brief, understandable definitions and explanations. Tables of important fundamental constants and conversion factors are included. In this abridged guide, the more specialized and complex material has been omitted, retaining, however, the essence of the Green Book. It is particularly intended to be suitable for students and teachers but it should also be useful for scientists, science publishers and organizations working across a multitude of disciplines requiring internationally approved terminology in the area of Physical Chemistry. It now includes the most up to date definitions and constants in agreement with the ‘new SI’ as established by agreement on the International System of Units in Paris in 2019. It should find the widest possible acceptance and use for best practice in science and technology.




Quantities, Units and Symbols in Physical Chemistry


Book Description

The first IUPAC Manual of Symbols and Terminology for Physicochemical Quantities and Units (the Green Book) of which this is the direct successor, was published in 1969, with the object of 'securing clarity and precision, and wider agreement in the use of symbols, by chemists in different countries, among physicists, chemists and engineers, and by editors of scientific journals'. Subsequent revisions have taken account of many developments in the field, culminating in the major extension and revision represented by the 1988 edition under the simplified title Quantities, Units and Symbols in Physical Chemistry. This 2007, Third Edition, is a further revision of the material which reflects the experience of the contributors with the previous editions. The book has been systematically brought up to date and new sections have been added. It strives to improve the exchange of scientific information among the readers in different disciplines and across different nations. In a rapidly expanding volume of scientific literature where each discipline has a tendency to retreat into its own jargon this book attempts to provide a readable compilation of widely used terms and symbols from many sources together with brief understandable definitions. This is the definitive guide for scientists and organizations working across a multitude of disciplines requiring internationally approved nomenclature.




Interfacial Chemistry of Rocks and Soils


Book Description

Knowledge of the basic interactions that take place between geological materials and different substances is the first step in understanding the effects of adsorption and other interfacial processes on the quality of rocks and soils, and on driving these processes towards a beneficial or neutral result. Interfacial Chemistry of Rocks and Soils examines the different processes at solid and liquid interfaces of soil and rock, presenting a complete analysis that emphasizes the importance of chemical species on these interactions. This Second Edition features novel results in the field and expanded coverage of the kinetics of interfacial processes. New content includes models of heterogeneous isotope exchange, sorption isotherms for heterovalent cation exchange, as well as sorption of anions by chemically modified clays. Summarizing the results and knowledge of the authors’ research in this field over several decades, this volume: Explores the individual components of the studied systems: the solid, the solution, and the interface Discusses the characteristics and thermodynamics of the interface Profiles the most important analytical methods in the study of interfacial processes Demonstrates transformations initiated by interfacial processes Outlines avenues of treatment that may solve geological, soil science, and environmental problems Drawn chiefly from the authors’ years of research at the Imre Lajos Isotope Laboratory in the Department of Physical Chemistry at the University of Debrecen in Hungary, this book discusses chemical reactions on the surfaces/interfaces of soils and rocks; examines the role of these processes in environmental, colloid and geochemistry; and explores the effects on agricultural, environmental and industrial applications.




Environmental Colloids and Particles


Book Description

This text presents the current knowledge of environmental colloids and includes reviews of the current understanding of structure, role and behaviour of environmental colloids and particles, whilst focussing directly on aquatic systems and soils. In addition, there is substantial critical assessment of the techniques employed for the sampling, size fractionation and characterisation of colloids and particles. Chemical, physical and biological processes and interactions involving colloids are described, and particular attention is paid to quantitative approaches that take account of particle heterogeneity and polydispersity. Presents critical reviews of the state-of-the-art knowledge of environmental colloids Critical assessment of techniques employed for the sampling, size fractionation and characterisation of colloids and particles are given Theoretical and experimental aspects of the methods as well as the required developments and possible recommendations are discussed Each chapter gives a brief introduction general enough for the non-specialist Written by a internationally recognized group of contributors




A Thermochemical Heat Storage System for Households


Book Description

The book offers a comprehensive report on the design and optimization of a thermochemical heat storage system for use in buildings. It combines theoretical and experimental work, with a special emphasis on model-based methods. It describes the numerical modeling of the heat exchanger, which allows recovery of about two thirds of the waste heat from both solar and thermal energy. The book also provides readers with a snapshot of current research on thermochemical storage systems, and an in-depth review of the most important concepts and methods in thermal management modeling. It represents a valuable resource for students, engineers and researchers interested in thermal energy storage processes, as well as for those dealing with modeling and 3D simulations in the field of energy and process engineering.




Calculating and Problem Solving Through Culinary Experimentation


Book Description

While many books proliferate elucidating the science behind the transformations during cooking, none teach the concepts of physics chemistry through problem solving based on culinary experiments as this one by renowned chemist and one of the founders of molecular gastronomy. Calculating and Problem Solving Through Culinary Experimentation offers an appealing approach to teaching experimental design and scientific calculations. Given the fact that culinary phenomena need physics and chemistry to be interpreted, there are strong and legitimate reasons for introducing molecular gastronomy in scientific curriculum. As any scientific discipline, molecular gastronomy is based on experiments (to observe the phenomena to be studied) and calculation (to fit the many data obtained by quantitative characterization of the studied phenomena), but also for making the theoretical work without which no real science is done, including refuting consequences of the introduced theories. Often, no difficult calculations are needed, and many physicists, in particular, make their first steps in understanding phenomena with very crude calculations. Indeed, they simply apply what they learned, before moving to more difficult math. In this book, the students are invited first to make simple experiments in order to get a clear idea of the (culinary) phenomena that they will be invited to investigate, and then are asked simple questions about the phenomena, for which they have to transform their knowledge into skills, using a clear strategy that is explained throughout. Indeed, the is "problem solving based on experiments", and all this about food and cooking. Key Features: Introduces readers to tips for experimental work Shows how simple scientific knowledge can be applied in understanding questions Provides a sound method ("strategy") for calculation in physics and chemistry Presents important definitions and laws for physical chemistry Gives confidence in one’s calculation skill and problem solving skills Explore physical and chemical phenomena that occur during cooking A unique mix of culinary arts and correct calculations, this book is useful to students as well as professors in chemistry, physics, biology, food science and technology.