In this richly detailed and readable history of of Austria-Hungary, Arthur J. May traces the rise and fall of the Hapsburg Monarchy, from the epochal Ausgleich of 1867 to the eve of the First World War.
The dramatic assassination of Archduke Ferdinand at Sarajevo opened the door to a tragic struggle which concluded with the disintegration of the curious dual empire of Austria Hungary and radically altered the political configuration of central Europe. This work, the culmination of a lifetime of study and thought on the Hapsburg Monarchy, penetrates its somber theme—the death throes of a recognized great power—in greater depth than any previous book. While it is of necessity heavily weighted with diplomatic and military affairs, a studied effort has been made to allocate appropriate attention to the internal evolution of the twinship of Austria-Hungary in all its variety and amplitude. The instructive story of the decline and collapse of this great power will have relevance not only for students of modern history but also for specialists in political science and for general readers who wish to understand the present shape of central Europe.
The dramatic assassination of Archduke Ferdinand at Sarajevo opened the door to a tragic struggle which concluded with the disintegration of the curious dual empire of Austria- Hungary and radically altered the political configuration of central Europe. This work, the culmination of a lifetime of study and thought on the Hapsburg Monarchy, penetrates its somber theme--the death throes of a recognized great power--in greater depth than any previous book. While it is of necessity heavily weighted with diplomatic and military affairs, a studied effort has been made to allocate appropriate attention to the internal evolution of the twinship of Austria-Hungary in all its variety and amplitude. The instructive story of the decline and collapse of this great power will have relevance not only for students of modern history but also for specialists in political science and for general readers who wish to understand the present shape of central Europe.
By 1865, at the age of 26, Booth had much to lose: a loving family, hosts of friends, adoring women, professional success as one of America's foremost actors, and the promise of yet more fame and fortune. Yet he formed a daring conspiracy to abduct Lincoln and barter him for Confederate prisoners of war. The Civil War ended before Booth could carry out his plan, so he assassinated the president, believing him to be a tyrant who had turned the once-proud Union into an engine of oppression that had devastated the South. This book gives a day-by-day account of Booth's complex life--from his birth May 10, 1838, to his death April 26, 1865, and the aftermath--and offers a new understanding of the crime that shocked a nation.
The biblical story of Adam and Eve in the Garden of Eden is a cornerstone of Western civilization, yet there are still many mysteries concerning its origins and meaning. In The Mythology of Eden, Arthur and Elena George utilize new historical and archaeological discoveries to reveal how the story’s author uses veiled symbolism and mythological storytelling to convey his message about the most profound questions of human existence regarding the divine, life, death, and immortality. This innovative book offers an interdisciplinary interpretation of the Eden story that delves into incorrect assumptions and brings to light details that have previously gone unnoticed. The Mythology of Eden provides a new understanding of the story of Adam and Eve and illuminates the story’s role and meaning in our modern world.
The dramatic assassination of Archduke Ferdinand at Sarajevo opened the door to a tragic struggle which concluded with the disintegration of the curious dual empire of Austria Hungary and radically altered the political configuration of central Europe. This work, the culmination of a lifetime of study and thought on the Hapsburg Monarchy, penetrates its somber theme—the death throes of a recognized great power—in greater depth than any previous book. While it is of necessity heavily weighted with diplomatic and military affairs, a studied effort has been made to allocate appropriate attention to the internal evolution of the twinship of Austria-Hungary in all its variety and amplitude. The instructive story of the decline and collapse of this great power will have relevance not only for students of modern history but also for specialists in political science and for general readers who wish to understand the present shape of central Europe.
This book is a volume in the Penn Press Anniversary Collection. To mark its 125th anniversary in 2015, the University of Pennsylvania Press rereleased more than 1,100 titles from Penn Press's distinguished backlist from 1899-1999 that had fallen out of print. Spanning an entire century, the Anniversary Collection offers peer-reviewed scholarship in a wide range of subject areas.
The Regulation of Money Managers (with the original subtitle: The Investment Company Act and The Investment Advisers Act) was published in 1978 and 1980. The Second Edition, subtitled Mutual Funds and Advisers, was published in 2001 and has been annually updated since then. It is a comprehensive and exhaustive treatise on investment management regulation. The treatise covers federal and state statutes, their legislative history, common law, judicial decisions, rules and regulations of the Securities and Exchange Commission, staff reports, and other publications dealing with investment advisers and investment companies. The treatise touches on other financial institutions such as banks, insurance companies, and pension funds. The work also discusses the economic, business, and theoretical aspects of the investment management industry and their effects on the law and on policy. The treatise contains detailed analysis of the history and development of the Investment Company Act and the Investment Advisers Act. It examines the definitions in the Acts, including the concept of ‘‘investment adviser,’’ ‘‘affiliates,’’ and ‘‘interested persons.’’ It outlines the duties of investment company directors, the independent directors, and other fiduciaries of investment companies. The treatise deals with the SEC’s enforcement powers and private parties’ rights of action.
This book aims to disseminate geometric algebra as a straightforward mathematical tool set for working with and understanding classical electromagnetic theory. It's target readership is anyone who has some knowledge of electromagnetic theory, predominantly ordinary scientists and engineers who use it in the course of their work, or postgraduate students and senior undergraduates who are seeking to broaden their knowledge and increase their understanding of the subject. It is assumed that the reader is not a mathematical specialist and is neither familiar with geometric algebra or its application to electromagnetic theory. The modern approach, geometric algebra, is the mathematical tool set we should all have started out with and once the reader has a grasp of the subject, he or she cannot fail to realize that traditional vector analysis is really awkward and even misleading by comparison. Professors can request a solutions manual by email: pressbooks@ieee.org
Two Nobel Laureates present a systematic, comprehensive account of the theory, techniques, experimental data, and interpretation involved in the study of microwave spectroscopy—a subject relevant to nuclear physics, molecular structure, chemical kinetics, quantum electrodynamics, and astronomy. The material in this volume is discussed critically, systematically, and in the simplest form. The simplicity of the wording and mathematics makes most of the contents accessible to those with a very elementary knowledge of quantum mechanics and atomic physics. Although the treatment is continuously developed, each of the 18 chapters is self-contained. Nearly 200 tables and figures augment the text. Appendixes supply most of the background for research and interpretation of microwave spectra; they also contain extensive data on nuclear and molecular constants, including essentially all those determined by microwave techniques. "Equally suitable for use as a fundamental reference or advanced textbook." — U.S. Quarterly Book Review.
This massively updated and expanded fifth edition is the most complete, authoritative engineering treatment of the dehydration and gas purification processes used in industry today. Of great value to design and operations engineers, it gives practical process and equipment design descriptions, basic data, plant performance results, and other detailed information on gas purification processes and hardware. This latest edition incorporates all significant advances in the field since 1985.You will find major new chapters on the rapidly expanding technologies of nitrogen oxide control, with discussions of regulatory requirements and available processes; absorption in physical solvents, covering single component and mixed solvent systems; and membrane permeation, with emphasis on the gas purification applications of membrane units. In addition, new sections cover areas of strong current interest, particularly liquid hydrocarbon treating, Claus plant tail gas treating, thermal oxidation of volatile organic compounds, and sulfur scavenging processes.This volume brings you expanded coverage of alkanolamines for hydrogen sulfide and carbon dioxide removal, the removal and use of ammonia in gas purification, the use of alkaline salt solutions for acid gas removal, and the use of water to absorb gas impurities. The basic technologies and all significant advances in the following areas are thoroughly described: sulfur dioxide removal and recovery processes, processes for converting hydrogen sulfide to sulfur, liquid phase oxidation processes for hydrogen sulfide removal, the absorption of water vapor by dehydrating solutions, gas dehydration and purification by adsorption, and the catalytic and thermal conversion of gas impurities.
Einstein's equations stem from General Relativity. In the context of Riemannian manifolds, an independent mathematical theory has developed around them. This is the first book which presents an overview of several striking results ensuing from the examination of Einstein’s equations in the context of Riemannian manifolds. Parts of the text can be used as an introduction to modern Riemannian geometry through topics like homogeneous spaces, submersions, or Riemannian functionals.
In Forensic Scriptures Brian Arthur Brown presents a long overdue Diagram of Sources of the Pentateuch from Hebrew Scriptures, a new perspective on authorship of the document known as "Q" in the Christian Scriptures, an acceptable entree into particular disciplines of scriptural criticism for Muslims, and an exciting new paradigm from Islam identifying the role women may have played in production of the Qur'an and the Bible.
It is because mathematics is often misunderstood, it is commonly believed it has nothing to say about politics. The high school experience with mathematics, for so many the lasting impression of the subject, suggests that mathematics is the study of numbers, operations, formulas, and manipulations of symbols. Those believing this is the extent of mathematics might conclude mathematics has no relevance to politics. This book counters this impression. The second edition of this popular book focuses on mathematical reasoning about politics. In the search for ideal ways to make certain kinds of decisions, a lot of wasted effort can be averted if mathematics can determine that finding such an ideal is actually impossible in the first place. In the first three parts of this book, we address the following three political questions: (1) Is there a good way to choose winners of elections? (2) Is there a good way to apportion congressional seats? (3) Is there a good way to make decisions in situations of conflict and uncertainty? In the fourth and final part of this book, we examine the Electoral College system that is used in the United States to select a president. There we bring together ideas that are introduced in each of the three earlier parts of the book.
Decentralized Estimation and Control for Multisensor Systems explores the problem of developing scalable, decentralized estimation and control algorithms for linear and nonlinear multisensor systems. Such algorithms have extensive applications in modular robotics and complex or large scale systems, including the Mars Rover, the Mir station, and Space Shuttle Columbia. Most existing algorithms use some form of hierarchical or centralized structure for data gathering and processing. In contrast, in a fully decentralized system, all information is processed locally. A decentralized data fusion system includes a network of sensor nodes - each with its own processing facility, which together do not require any central processing or central communication facility. Only node-to-node communication and local system knowledge are permitted. Algorithms for decentralized data fusion systems based on the linear information filter have been developed, obtaining decentrally the same results as those in a conventional centralized data fusion system. However, these algorithms are limited, indicating that existing decentralized data fusion algorithms have limited scalability and are wasteful of communications and computation resources. Decentralized Estimation and Control for Multisensor Systems aims to remove current limitations in decentralized data fusion algorithms and to extend the decentralized principle to problems involving local control and actuation. The text discusses: Generalizing the linear Information filter to the problem of estimation for nonlinear systems Developing a decentralized form of the algorithm Solving the problem of fully connected topologies by using generalized model distribution where the nodal system involves only locally relevant states Reducing computational requirements by using smaller local model sizes Defining internodal communication Developing estima
In the dynamic digital age, the widespread use of computers has transformed engineering and science. A realistic and successful solution of an engineering problem usually begins with an accurate physical model of the problem and a proper understanding of the assumptions employed. With computers and appropriate software we can model and analyze complex physical systems and problems. However, efficient and accurate use of numerical results obtained from computer programs requires considerable background and advanced working knowledge to avoid blunders and the blind acceptance of computer results. This book provides the background and knowledge necessary to avoid these pitfalls, especially the most commonly used numerical methods employed in the solution of physical problems. It offers an in-depth presentation of the numerical methods for scales from nano to macro in nine self-contained chapters with extensive problems and up-to-date references, covering: Trends and new developments in simulation and computation Weighted residuals methods Finite difference methods Finite element methods Finite strip/layer/prism methods Boundary element methods Meshless methods Molecular dynamics Multiphysics problems Multiscale methods
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