This compendium contains: 1) a collection of 100 poems by Annie Johnson Flint, entitled "He Giveth More Grace" (also available as a separate book) 2) the full biography of Annie Johnson Flint, by Roland V. Bingham, entitled "The Making of the Beautiful" (also available as a separate book) 3) a poem about the experience of Annie Johnson Flint, written specifically and exclusively for this publication by poet and author Andy McIlree 4) an additional collection of 25 poems by Annie Johnson Flint.
This is the only known biography of the Christian poetess Annie Johnson Flint, who died in 1932, and was first published in 1948 by the Evangelical Press, and is now in the public domain. The story is told by Roland V. Bingham [1872-1942] who was the founder of the Sudan Interior Mission (now the Serving in Mission (SIM)) and knew Annie personally. This account of her life, as well as telling her remarkable triumph over severe physical adversity, also records the only known 'autobiography' of hers, together with a selection of her poetry, a great deal of which has been out of print for decades.This book is a good companion to "He Giveth More Grace" - One Hundred Poems of Annie Johnson Flint, which includes a fitting foreword by another of her contemporaries, and contains most of her poems, all of which are now in the public domain.
This book provides an introduction to human visual perception suitable for readers studying or working in the fields of computer graphics and visualization, cognitive science, and visual neuroscience. It focuses on how computer graphics images are generated, rather than solely on the organization of the visual system itself; therefore, the text pro
In a time when American politics has become a spectator sport often viewed with a cynical eye by the people, it is needful to be reminded that our freedom entails a civic responsibility to preserve the legal document that gives us that freedom, the United States Constitution. The Constitution is a contract to which all citizens are parties and upon which they have a right to rely. The people have as well the right to protect themselves from interpretations that go unreasonably beyond the original intent of the Framers. It is clear that in the past the Constitution has been abused to justify decisions made by the legislative and judicial branches of government (as in the Dred Scott case) that have since been overturned. Decisions that extend the powers of the federal government beyond the expressly stated limits declared in the Constitution continue to occur today and remain subjects of intensely debated contention. This book gives detailed examples of where Congress and the Supreme Court have gone outside the people's mutual contract and have, in effect, amended the Constitution. The last chapter outlines a procedure by which citizens, voting directly, can overrule or repeal amendments made by elements of their government.
This up-to-date fourth edition of the most important and interesting data--on a day by day basis--throughout American history includes more than 1,400 new entries with information on a wide variety of subjects--both the "important" matters (Supreme Court decisions, war events, scientific breakthroughs, etc.) and the lesser known but thought provoking incidents and phenomena (societal changes, unexpected events) that add richness and depth to American history.
Growing local economies, empowering communities, revitalizing downtowns, developing entrepreneurship, building leadership, and enhancing nonprofits — you can achieve all these benefits and more with a comprehensive and strategic revitalization plan. Chronicling the struggle of local revitalization as organizers move from trial and error to effective revitalization strategies, Promoting Sustainable Local and Community Economic Development documents the current transformation in community revitalization from market-based incentives to mixed strategies of public sector learning, partnerships, and community capacity. Knowledge about the field and what works is growing, but not always publicized and readily accessible. This reference surveys the breadth of innovative place and people development practices, presenting lessons and examples at a general and textured level, putting information about innovative ways to change, influence, and improve the economic development process within easy reach. Roland Anglin brings his unique vantage point to the topic; his experience as a practitioner and applied academic allowed him to see how community economic development practices grow over time in size, scale, and impact. He highlights the difference between what is now termed community economic development (CED) and traditional local economic development practice, specifically the priority placed on community involvement in economic development partnerships between the private sector and government. The book includes case studies that demonstrate what has and has not worked in revitalization efforts, as well as how active public and private sector partnerships have been the most effective in revitalization efforts. A Resource Guide is included at the end of the book for readers who may want a more expansive understanding of community economic development.
The Way of the Ship offers a global perspective and considers both oceanic shipping and domestics shipping along America's coasts and inland waterways, with explanations of the forces that influenced the way of the ship. The result is an eye-opening, authoritative look at American maritime history and the ways it helped shape the nation's history."--BOOK JACKET.
Variational Methods for the Numerical Solution of Nonlinear Elliptic Problems?addresses computational methods that have proven efficient for the solution of a large variety of nonlinear elliptic problems. These methods can be applied to many problems in science and engineering, but this book focuses on their application to problems in continuum mechanics and physics. This book differs from others on the topic by presenting examples of the power and versatility of operator-splitting methods; providing a detailed introduction to alternating direction methods of multipliers and their applicability to the solution of nonlinear (possibly nonsmooth) problems from science and engineering; and showing that nonlinear least-squares methods, combined with operator-splitting and conjugate gradient algorithms, provide efficient tools for the solution of highly nonlinear problems. The book provides useful insights suitable for advanced graduate students, faculty, and researchers in applied and computational mathematics as well as research engineers, mathematical physicists, and systems engineers.
The essential guide to Joyce’s famously difficult book. Roland McHugh’s classic Annotations to Finnegans Wake provides both novice readers and seasoned Joyceans with a wealth of information in an easy-to-use format uniquely suited to this densely layered text. Each page of the Annotations corresponds directly to a page of the standard Viking/Penguin edition of Finnegans Wake and contains line-by-line notes following the placement of the passages to which they refer, enabling readers to look directly from text to notes and back again, with no need to consult separate glossaries or other listings. McHugh’s richly detailed annotations distill decades of scholarship, explicating foreign words, unusual English connotations and colloquial expressions, place names, historical events, song titles and quotations, parodies of other texts, and Joyce’s diverse literary and popular sources. This thoroughly updated fourth edition draws heavily on Internet resources and keyword searches. For the first time, McHugh provides readers with a synopsis of the action of Finnegans Wake. He also expands his examination of possible textual corruption and adds hundreds of new glosses to help scholars, students, and general readers untangle the dense thicket of allusions that crowds every sentence of Joyce’s nearly inscrutable masterpiece.
Rising from a humble background in rural southern Ireland, John Tyndall became one of the foremost physicists, communicators of science, and polemicists in mid-Victorian Britain. In science, he is known for his important work in meteorology, climate science, magnetism, acoustics, and bacteriology. His discoveries include the physical basis of the warming of the Earth's atmosphere (the basis of the greenhouse effect), and establishing why the sky is blue. But he was also a leading communicator of science, drawing great crowds to his lectures at the Royal Institution, while also playing an active role in the Royal Society. Tyndall moved in the highest social and intellectual circles. A friend of Tennyson and Carlyle, as well as Michael Faraday and Thomas Huxley, Tyndall was one of the most visible advocates of a scientific world view as tensions grew between developing scientific knowledge and theology. He was an active and often controversial commentator, through letters, essays, speeches, and debates, on the scientific, political, and social issues of the day, with strongly stated views on Ireland, religion, race, and the role of women. Widely read in America, his lecture tour there in 1872-73 was a great success. Roland Jackson paints a picture of an individual at the heart of Victorian science and society. He also describes Tyndall's importance as a pioneering mountaineer in what has become known as the Golden Age of Alpinism. Among other feats, Tyndall was the first to traverse the Matterhorn. He presents Tyndall as a complex personality, full of contrasts, with his intense sense of duty, his deep love of poetry, his generosity to friends and his combativeness, his persistent ill-health alongside great physical stamina driving him to his mountaineering feats. Drawing on Tyndall's letters and journals for this first major biography of Tyndall since 1945, Jackson explores the legacy of a man who aroused strong opinions, strong loyalties, and strong enmities throughout his life.
Tracing the Gospel text from script to illustration to recitation, this study looks at how illuminated manuscripts operated within ritual and architecture. Focusing on a group of richly illuminated lectionaries from the late eleventh century, the book articulates how the process of textual recitation produced marginalia and miniatures that reflected and subverted the manner in which the Gospel was read and simultaneously imagined by readers and listeners alike. This unique approach to manuscript illumination points to images that slowly unfolded in the mind of its listeners as they imagined the text being recited, as meaning carefully changed and built as the text proceeded. By examining this process within specific acoustic architectural spaces and the sonic conditions of medieval chant, the volume brings together the concerns of sound studies, liturgical studies, and art history to demonstrate how images, texts, and recitations played with the environment of the Middle Byzantine church.
This book on finite element-based computational methods for solving incompressible viscous fluid flow problems shows readers how to apply operator splitting techniques to decouple complicated computational fluid dynamics problems into a sequence of relatively simpler sub-problems at each time step, such as hemispherical cavity flow, cavity flow of an Oldroyd-B viscoelastic flow, and particle interaction in an Oldroyd-B type viscoelastic fluid. Efficient and robust numerical methods for solving those resulting simpler sub-problems are introduced and discussed. Interesting computational results are presented to show the capability of methodologies addressed in the book.
Professor Pennock launches an encyclopedic study that evaluates and ultimately synthesizes a variety of democratic theories. After defining democracy and examining the basic tensions both within and between liberty and equality, and individualism and collectivism, the author sets forth two typologies of operational democratic theories, one related to power, the other related to motivation. In succeeding chapters, he analyzes a series of problems with which any operating democracy must contend, and then measures—on the basis of empirical work done in this area—the adequacy of the various theories in dealing with these problems. Originally published in 1979. The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
How do the world’s greatest golfers improve their game? Practice, sure, but Roland Minton says mathematics and statistics are also key to their success. Golf by the Numbers analyzes the mathematical strategies behind the sport, giving fans a behind-the-scenes look at how numbers drive the game. Computers, GPS trackers, swing simulators, and high-speed cameras have introduced new and exciting ways of seeing and understanding the complicated and endlessly fascinating game of golf. Players like Phil Mickelson are so good because they review the results of every swing they take. Minton’s comprehensive analysis of statistics taken from the PGA Tour’s ShotLink system walks readers through the mountains of data that pros use to inform and refine their play. The result is an insider’s perspective of how the world’s greatest golfers apply mathematics to the sport. Minton discusses randomness in golf (especially how much luck is involved in putting) as well as aggressive and cautious strategies both on and off the greens, and he explains, by the numbers, just how Tiger Woods was so dominant from 2004 to 2009. Here is a book that tells some truly engaging stories of modern golf, featuring famous players and memorable tournaments, all through the lens of elementary probability theory. Minton’s informal style and clear and direct explanations make even the most detailed discussions accessible to all curious-minded golfers. His mathematical morsels are not only enjoyable to read—they may even help you improve your game.
Biophysics is the science of physical principles underlying the "phenomenon of life" on all levels of organization. This book begins by explaining molecular and ionic interactions, movements, excitation and energy transfer, and the self-organization of supramolecular structures. Then the biological organism is introduced as a non-equilibrium system. Finally, system analyses are discussed as well as environmental biophysics, ecological interactions, growth, differentiation, and evolution. A growing number of applications in biotechnology are based on these biophysical concepts.
The Confederacy was never single-minded. From the fateful year of 1861 until Appomattox, the South was a complex of heroism and cowardice, grief and frivolity, nationalism and state rights. But at the same time the Southern nation underwent a complete career from birth through maturity to death. In The Confederacy Charles P. Roland is faithful to both the larger career and the internal complexity. Paying careful attention to President Davis' struggle against dividing forces within, the author skillfully narrates the attempt of the Confederacy to wage total war against superior forces. All the poignant events and conditions are here: the formation of the government, the upper South's final commitment to the cause, the doomed attempts to combat the Northern blockade at home and Northern diplomacy overseas, an agrarian economy's heroic defiance of an industrial enemy, the desperate measures by which the Davis government tried to sustain the Confederacy, and, at last, the dissolution and flight of the administration in 1865. With accuracy, sensitivity, and balance, Mr. Roland develops the epic themes of his story against a background of vivid historical detail and re-creates the Confederacy with a tragic splendor—the prime quality of its surviving image among Southerners.
This volume offers a critical review of the literature concerning the fluid dynamics, heat transfer, and mass transfer of single bubbles, drops, and particles. Upper-level undergraduates and graduate students, as well as professionals in the fields of engineering, physics, chemistry, geophysics, and applied mathematics, will find it a unified treatment of solid particles, liquid drops, and gas bubbles. Starting with a summary of the fundamental principles and equations governing the behavior of bubbles, drops, and solid particles in Newtonian fluids, the text proceeds to a survey of the parameters used to characterize the shape of rigid particles, and of the factors that determine the shape of bubbles and drops. Succeeding chapters examine the behavior of solid and fluid particles under steady incompressible flow in an extended external phase. The text concludes with an exploration of effects that complicate the relatively simple case of a particle moving steadily through an unbounded fluid.
The fifth edition of this textbook has been completely revised and significantly extended in order to reflect the revolution of geodetic technologies, methods and applications during the last decade. The Global Geodetic Observing System established by the IAG utilizes a variety of techniques to determine the geometric shape of the earth and its kinematics, the variations of earth rotation, and the earth’s gravity field. The societal importance of geodetic products was highlighted by the UN resolution on the Global Geodetic Reference Frame. In this context, both space and terrestrial techniques play a fundamental role. Recent space missions are monitoring climate-relevant processes such as mass transport in the Earth system and sea level changes. The analysis of the time variation of the geodetic products provides the link to neighboring geosciences and contributes to proper modelling of geodynamic processes. New satellite mission concepts and novel technologies such as quantum gravimetry and optical clocks show great potential to further improve the geodetic observing system in the future. The book especially addresses graduate students in the fields of geodesy, geophysics, surveying engineering, geomatics, and space navigation. It should also serve as a reference for geoscientists and engineers facing geodetic problems in their professional work. The book follows the principal directions of geodesy, providing the theoretical background as well as the principles of measurement and evaluation methods, which is enriched with numerous figures. An extensive reference list supports further studies.
This book describes the mathematical background and reviews the techniques for solving problems, including those that require large computations such as transonic flows for compressible fluids and the Navier-Stokes equations for incompressible viscous fluids. Finite element approximations and non-linear relaxation, and nonlinear least square methods are all covered in detail, as are many applications. This volume is a classic in a long-awaited softcover re-edition.
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