Heats of hydrogenation constitute a body of thermochemical information that has had an on-going significance despite the small number of research groups engaged in the work. Recent highly accurate quantum mechanical calculations requiring reference standards of high accuracy have brought hydrogen thermochemistry back into contemporary focus.This book concentrates on distinctive features of hydrogen thermochemistry such as the practical and historical aspects of experimental determination of the enthalpies of hydrogenation and formation of organic compounds, primarily hydrocarbons, literature on hydrogen thermochemistry over the last 70 years, as well as the impact of contemporary advances in computer hardware and software on the calculation of heats of hydrogenation.
Workplaces in the United States are safer today than they were a hundred and twenty years ago. In this book, Donald W. Rogers attributes this improvement partly to the development in the Progressive Era of surprisingly strong state-level work safety and health regulatory agencies, a patchwork of commissions and labor departments that advanced safety law from common-law negligence to the modern system of administrative regulation. Rogers examines the Wisconsin Industrial Commission and compares it to arrangements in Ohio, California, New York, Illinois, and Alabama. Connecting this history to the creation of the Occupational Safety and Health Administration in 1970, Making Capitalism Safe will revise historical understandings of state regulation, compensation insurance, and labor law politics--issues that remain pressing in our time.
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.
Computational Chemistry Using the PC, Third Edition takes the reader from a basic mathematical foundation to beginning research-level calculations, avoiding expensive or elaborate software in favor of PC applications. Geared towards an advanced undergraduate or introductory graduate course, this Third Edition has revised and expanded coverage of molecular mechanics, molecular orbital theory, molecular quantum chemistry, and semi-empirical and ab initio molecular orbital approaches. With significant changes made to adjust for improved technology and increased computer literacy, Computational Chemistry Using the PC, Third Edition gives its readers the tools they need to translate theoretical principles into real computational problems, then proceed to a computed solution. Students of computational chemistry, as well as professionals interested in updating their skills in this fast-moving field, will find this book to be an invaluable resource.
From its roots in early English rules to its practice today, this work covers the evolution, expansion, and ongoing debates regarding "the first liberty" in America. The Right to Vote: Rights and Liberties under the Law tracks the expansion of the franchise in America from colonial times to the present. Opening with a case study establishing the importance of access to the ballot, the main emphasis shifts to pivotal points in American history including the hard-fought struggles for women's suffrage and racial equality. A chapter on 21st-century voting rights addresses the most unsettled issue we face today—the use of majority-minority districts to enhance the political influence of African Americans and Latinos. A parting look at free and fair elections and the 2000 presidential election debacle shows how votes not counted or improperly credited can make a mockery of the democratic process.
The 1939 Supreme Court decision Hague v. CIO was a constitutional milestone that strengthened the right of Americans, including labor organizers, to assemble and speak in public places. Donald W. Rogers eschews the prevailing view of the case as a morality play pitting Jersey City, New Jersey, political boss Frank Hague against the Committee for Industrial Organization (CIO) and allied civil libertarian groups. Instead, he draws on a wide range of archives and evidence to re-evaluate Hague v. CIO from the ground up. Rogers's review of the case from district court to the Supreme Court illuminates the trial proceedings and provides perspectives from both sides. As he shows, the economic, political, and legal restructuring of the 1930s refined constitutional rights as much as the court case did. The final decision also revealed that assembly and speech rights change according to how judges and lawmakers act within the circumstances of a given moment. Clear-eyed and comprehensive, Workers against the City revises the view of a milestone case that continues to impact Americans' constitutional rights today.
BASIC Microcomputing and Biostatistics is designed as the first practical "how to" guide to both computer programming in BASIC and the statis tical data processing techniques needed to analyze experimental, clinical, and other numerical data. It provides a small vocabulary of essential com puter statements and shows how they are used to solve problems in the bio logical, physical, and medical sciences. No mathematical background be yond algebra and an inkling of the principles of calculus is assumed. All more advanced mathematical techniques are developed from "scratch" before they are used. The computing language is BASIC, a high-level lan guage that is easy to learn and widely available using time-sharing com puter systems and personal microcomputers. The strategy of the book is to present computer programming at the outset and to use it throughout. BASIC is developed in a way reminiscent of graded readers used in human languages; the first programs are so sim ple that they can be read almost without an introduction to the language. Each program thereafter contains new vocabulary and one or more con cepts, explained in the text, not used in the previous ones. By gradual stages, the reader can progress from programs that do nothing more than count from one to ten to sophisticated programs for nonlinear curve fitting, matrix algebra, and multiple regression. There are 33 working programs and, except for the introductory ones, each performs a useful function in everyday data processing problems encountered by the experimentalist in many diverse fields.
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