For almost four thousand years, men and women with power have exploited vulnerable populations for cheap or free labor. These slaves, serfs, helots, tenants, peons, bonded or forced laborers, etc., built pyramids and temples, dug canals and mined the earth for precious metals and gemstones. They built the palaces and mansions in which the powerful lived, grown the food they ate, spun the cloth that clothed them. This second edition of Historical Dictionary of Slavery and Abolition relates the long and brutal history of slavery and the struggle for abolition using several key features: Chronology Introductory essay Appendixes Extensive bibliography Over 500 cross-referenced entries on forms of slavery, famous slaves and abolitionists, sources of slaves, and current conditions of modern slavery around the world This book is an excellent access point for students, researchers, and anyone wanting to know more about slavery and abolition.
Slavery's origins lie far back in the mists of prehistoric times and have spanned the globe, two facts that most history texts fail to address. This comprehensive volume provides a historical overview of slavery through the ages, from prehistoric times to the modern day, while detailing the different forms, the various sources, and the circumstances existing in different countries and regions. As a broad reference source, it provides a complete look at slavery by discussing the causes and cures, as well as the plight of those who fought for and against it. Every public, college, and high school library will want this available for students and other researchers.
This book sets out modern methods of computing properties of materials, including essential theoretical background, computational approaches, practical guidelines and instructive applications.
Previously published separately, the two books aha! Gotcha and aha! Insight are here combined as a single volume. The aha! books, as they are referred to by fans of Martin Gardner, contain 144 wonderful puzzles from the reigning king of recreational mathematics. In this combined volume, you will find puzzles ranging over geometry, logic, probability, statistics, number, time, combinatorics, and word play. Gardner calls these puzzles aha! problems, that 'seem difficult, and indeed are difficult if you go about trying to solve them in traditional ways. But if you can free your mind from standard problem solving techniques, you may be receptive to an aha! reaction that leads immediately to a solution. Don't be discouraged if, at first, you have difficulty with these problems. After a while you will begin to catch the spirit of offbeat, nonlinear thinking, and you may be surprised to find your aha! ability improving.
Can faith as trusting God make a difference? Absolutely--by relieving our anxiety over self-justification and the need to scapegoat others. When we discover we don't justify ourselves because God has justified us, we become free. What Sin Boldly! points to is the presence of the crucified and living Christ in the human soul, placed there by the Holy Spirit. And this becomes transformative. Sin Boldly! provides an experiential analysis of the contrast between self-justification and justification by God. Those among us with fragile souls are anxious, and we shore up our anxiety with walls of self-justification that victimize those whom we scapegoat. Those among us with broken souls have lost the very moral universe that makes any kind of justification possible, and this usually leads to anomie and suicide. We must pose the question: how can the gospel of grace provide transformation for both fragile and broken souls? After an exposition of the Joint Declaration on the Doctrine of Justification, this book proposes the following answer: trusting in the God of grace relieves anxiety and provides a divine vocation that transcends our moral universe with the promise of forgiveness, renewal, and resurrection.
Given the immense progress achieved in elucidating protein-protein complex structures and in the field of protein interaction modeling, there is great demand for a book that gives interested researchers/students a comprehensive overview of the field. This book does just that. It focuses on what can be learned about protein-protein interactions from the analysis of protein-protein complex structures and interfaces. What are the driving forces for protein-protein association? How can we extract the mechanism of specific recognition from studying protein-protein interfaces? How can this knowledge be used to predict and design protein-protein interactions (interaction regions and complex structures)? What methods are currently employed to design protein-protein interactions, and how can we influence protein-protein interactions by mutagenesis and small-molecule drugs or peptide mimetics?The book consists of about 15 review chapters, written by experts, on the characterization of protein-protein interfaces, structure determination of protein complexes (by NMR and X-ray), theory of protein-protein binding, dynamics of protein interfaces, bioinformatics methods to predict interaction regions, and prediction of protein-protein complex structures (docking and homology modeling of complexes, etc.) and design of protein-protein interactions. It serves as a bridge between studying/analyzing protein-protein complex structures (interfaces), predicting interactions, and influencing/designing interactions.
Martin Gardner's Mathematical Games columns in Scientific American inspired and entertained several generations of mathematicians and scientists. Gardner in his crystal-clear prose illuminated corners of mathematics, especially recreational mathematics, that most people had no idea existed. His playful spirit and inquisitive nature invite the reader into an exploration of beautiful mathematical ideas along with him. These columns were both a revelation and a gift when he wrote them; no one-before Gardner-had written about mathematics like this. They continue to be a marvel. This is the original 1997 edition and contains columns published from 1980-1986.
Progress in developmental neurobiology and advances in (neuro) genetics have been spectacular. The high resolution of modern imaging techniques applicable to developmental disorders of the human brain and spinal cord have created a novel insight into the developmental history of the central nervous system (CNS). This book provides a comprehensive overview of the development of the human CNS in the context of its many developmental disorders. It provides a unique combination of data from human embryology, animal research and developmental neuropathology, and there are more than 400 figures in over a hundred separate illustrations.
In this book, a leading authority on film music examines scores of the silent film era. The first of three projected volumes investigating music written for films, this thoughtful and pathbreaking study demonstrates the richness of silent film music as it details the way in which scores were often planned from the start as an integral part of the whole cinematic experience. Following an introductory chapter that outlines several key theoretical questions and surveys eight decades of writing on film music, Martin Miller Marks focuses on those scores created between 1895 and 1924. He begins by considering two early examples, one German (written by persons unknown for Skladanowsky's Bioskop exhibitions in 1895 and 1896) and one French (scored by Camille Saint-Saëns for the 1908 film L'Assassinat du Duc de Guise). Subsequent chapters fully discuss Walter Cleveland Simon's music for the American film An Arabian Tragedy (1912) as well as the Joseph Breil accompaniment to D. W. Griffith's Birth of a Nation (1915). As described in this book, Breil's memorable score--though a compilation derived from many sources--was played by an orchestra as Griffith's sweeping images filled the screen, thus contributing significantly to the great film's success while also achieving remarkable power in its own right. Marks then concludes with a look at Erik Satie's witty and innovative music for the French film Entr'acte (1924), which was the first film score of consequence by an avant-garde composer. Giving unprecedented attention to a vibrant, important, and oft-neglected facet of twentieth-century music, Music and the Silent Film will interest scholars of film theory, film history, modern music, and modern aesthetics.
For almost four thousand years, men and women with power have exploited vulnerable populations for cheap or free labor. These slaves, serfs, helots, tenants, peons, bonded or forced laborers, etc., built pyramids and temples, dug canals and mined the earth for precious metals and gemstones. They built the palaces and mansions in which the powerful lived, grown the food they ate, spun the cloth that clothed them. This second edition of Historical Dictionary of Slavery and Abolition relates the long and brutal history of slavery and the struggle for abolition using several key features: Chronology Introductory essay Appendixes Extensive bibliography Over 500 cross-referenced entries on forms of slavery, famous slaves and abolitionists, sources of slaves, and current conditions of modern slavery around the world This book is an excellent access point for students, researchers, and anyone wanting to know more about slavery and abolition.
The past 25 years has seen the emergence of a wealth of data suggesting that novel biological functions of known proteins play important roles in biology and medicine. This ability of proteins to exhibit more than one unique biological activity is known as protein moonlighting. Moonlighting proteins can exhibit novel biological functions, thus extending the function of the proteome, and are also implicated in the pathology of a growing number of idiopathic and infectious diseases. This book, written by a cell biologist, protein evolutionary biologist and protein bioinformatician, brings together the latest information on the structure, evolution and biological function of the growing numbers of moonlighting proteins that have been identified, and their roles in human health and disease. This information is revealing the enormous importance protein moonlighting plays in the maintenance of human health and in the induction of disease pathology. Protein Moonlighting in Biology and Medicine will be of interest to a general readership in the biological and biomedical research community.
Martin Gardner's status as a legend of popular mathematics and science writing was secured long ago. If you know him chiefly as a recreational mathematician, you'll find this collection of writings an eye-opener. Gardner includes musings on homeopathy, false memory syndrome, G. K. Chesterton and Lewis Carroll among curiosities in physics and maths, harvested from essays, articles and even letters to newspaper editors. Clear, closely argued and entertaining, they are a fascinating insight into the breadth of interest and fecundity of the man, now in his 90s.- New ScientistFor over fifty years Martin Gardner has been delighting readers with elegant, witty, and highly intelligent writing on an amazing array of topics. Best known for his works on popular science and mathematics, and as an incisive skeptical commentator on the paranormal, Gardner is also an accomplished writer of children's literature, a novelist, and a prolific essayist on religion, philosophy, and other issues.This new collection of Gardner gems takes its name from an essay on a mathematical theme, about a jinn (or genie) trapped in a Klein Bottle-an amusing tale that also teaches the math phobic something interesting about a theoretical one-sided object with no distinction between inside and outside. Other topics in math and physics include speculations about universes where time runs in reverse; the Banach-Tarski paradox (whereby a sphere, after being deconstructed, can be reassembled at twice its size); and a vigorous defense of the objective reality of mathematical theorems independent of human culture.On the literary side, Gardner discusses two neglected works by G.K. Chesterton, one of which concerns an imaginary but now very topical war between Islam and Christianity. He also considers the fantasies of L. Frank Baum that don't take place in Oz, Clement Moore's ever-popular The Night Before Christmas, and the many fascinating books by Lewis Carroll that are sometimes overshadowed by his famous Alice in Wonderland.A treat for longtime Gardner readers or the perfect introduction for newcomers, The Jinn from Hyperspace offers a rich selection of stimulating intellectual wonders.Martin Gardner, the creator of Scientific American's Mathematical Games column, which he wrote for more than twenty-five years, is the author of almost one hundred books, including The Annotated Ancient Mariner, Martin Gardner's Favorite Poetic Parodies, From the Wandering Jew to William F. Buckley Jr., and Science: Good, Bad and Bogus. For many years he was also a contributing editor to the Skeptical Inquirer.
No amateur or math authority can be without this ultimate compendium of classic puzzles, paradoxes, and puzzles from America's best-loved mathematical expert. 320 line drawings.
Consequences of quantum gravity on grander scales are expected to be enormous: only such a theory can show how black holes really behave and where our universe came from. Applications of loop quantum gravity to cosmology have especially by now shed much light on cosmic evolution of a universe in a fundamental, microscopic description. Modern techniques are explained in this book which demonstrate how the universe could have come from a non-singular phase before the big bang, how equations for the evolution of structure can be derived, but also what fundamental limitations remain to our knowledge of the universe before the big bang. The following topics will be covered in this book: Hamiltonian cosmology: a general basic treatment of isotropy, perturbations and their role for observations; useful in general cosmology. Effective equations: an efficient way to evaluate equations of quantum gravity, which is also useful in other areas of physics where quantum theory is involved. Loop quantization: a new formalism for the atomic picture of space-time; usually presented at a sophisticated mathematical level, but evaluated here from an intuitive physical side. The book will start with physical motivations, rather than mathematical developments which is more common in other expositions of this field. All the required mathematical methods will be presented, but will not distract the reader from seeing the underlying physics. Simple but representative models will be presented first to show the basic features, which are then used to work upwards to a general description of quantum gravity and its applications in cosmology. This will make the book accessible to a more general physics readership.
This newly updated edition of a well-known work explores a pair of modern science's most fundamental discoveries: the asymmetric DNA helix and the overthrow of parity (left-right symmetry) in particle physics. Absorbing and thought-provoking, The New Ambidextrous Universe was written by Martin Gardner, one of Dover's most popular authors,.
This book brings the most important aspects of modern topology within reach of a second-year undergraduate student. It successfully unites the most exciting aspects of modern topology with those that are most useful for research, leaving readers prepared and motivated for further study. Written from a thoroughly modern perspective, every topic is introduced with an explanation of why it is being studied, and a huge number of examples provide further motivation. The book is ideal for self-study and assumes only a familiarity with the notion of continuity and basic algebra.
Best known as the longtime writer of the Mathematical Games column for "Scientific American," Gardner displays an awesome level of erudition combined with a wicked sense of humor in this collection of amusing essays.
A description of the global properties of simply-connected spaces that are non-positively curved in the sense of A. D. Alexandrov, and the structure of groups which act on such spaces by isometries. The theory of these objects is developed in a manner accessible to anyone familiar with the rudiments of topology and group theory: non-trivial theorems are proved by concatenating elementary geometric arguments, and many examples are given. Part I provides an introduction to the geometry of geodesic spaces, while Part II develops the basic theory of spaces with upper curvature bounds. More specialized topics, such as complexes of groups, are covered in Part III.
This classic text - aimed at senior undergraduates and beginning graduate students in physics and astronomy - presents a wide range of concepts in sufficient depth to give the reader a quantitative understanding of the subject. Emphasising physical concepts, it provides the student with a series of astrophysical sketches, concluding with a synthesis of all the subjects discussed in the book, sketching the history of the universe from its beginning to the formation of the Sun and the planets.
Martin Gardner's Mathematical Games columns in Scientific American inspired and entertained several generations of mathematicians and scientists. Gardner in his crystal-clear prose illuminated corners of mathematics, especially recreational mathematics, that most people had no idea existed. His playful spirit and inquisitive nature invite the reader into an exploration of beautiful mathematical ideas along with him. These columns were both a revelation and a gift when he wrote them; no one--before Gardner--had written about mathematics like this. They continue to be a marvel. This is the original 1971 edition and contains columns published in the magazine from 1963-1965.
This book contains scores of intriguing puzzles and paradoxes from Lewis Carroll, the author of Alice in Wonderland, whose interests ranged from inventing new games like Arithmetical Croquet to important problems in symbolic logic and propositional calculus. Written by Carroll expert and well-known mathematics author Martin Gardner, this tour through Carroll's inventions is both fun and informative.
For many decades, Martin Gardner, the Grand Master of mathematical puzzles, has provided the tools and projects to furnish our all-too-sluggish minds with an athletic workout. Gardner's problems foster an agility of the mind as they entertain. This volume presents a new collection of problems and puzzles not previously published in book form. Marti
Essential German Grammar is a student-friendly German grammar designed to give learners a firm foundation on which to build when developing their communicative skills. The reference grammar section is easy to use, with clear explanations, authentic examples and visually appealing tables. A separate exercise section, with answers, gives students the opportunity to test themselves and put into practice what they have learned. Key features: * Colour tables and clear layout facilitate learning * Glossary of grammatical terms and accessible explanations * Designed to be used as a free-standing grammar or as a foundation grammar for Hammer's German Grammar and Usage. * Cartoons and an authentic text at the end of each chapter put the grammar points in context
In the 19th century, pure mathematics research reached a climax in Germany, and Carl Friedrich Gauss (1777–1855) was an epochal example. August Ferdinand Möbius (1790–1868) was his doctoral student whose work was profoundly influenced by him. In the 18th century, it had been mostly the French school of applied mathematics that enabled the rapid developments of science and technology in Europe. How could this shift happen? It can be argued that the major reasons were the devastating consequences of the Napoleonic Wars in Central Europe, leading to the total defeat of Prussia in 1806. Immediately following, far-reaching reforms of the entire state system were carried out in Prussia and other German states, also affecting the educational system. It now guaranteed freedom of university teaching and research. This attracted many creative people with new ideas enabling the “golden age” of pure mathematics and fundamental theory in physical sciences. Möbius’ legacy reaches far into today’s sciences, arts, and architecture. The famous one-sided Möbius strip is a paradigmatic example of the ongoing fascination with mathematical topology. This is the first book to present numerous detailed case studies on Möbius topology in science and the humanities. It is written for those who believe in the power of ideas in our culture, experts and laymen alike.
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