A stronghold of Scotch-Irish settlement, Augusta County commands great interest among genealogists because thousands of 18th- and 19th-century families passed through it en route to the West. J. Lewis Peyton's History of Augusta County, Virginia is the standard work on the county. It is essentially a narrative account of Augusta from its aboriginal beginnings and Spotswood's discovery of the Valley of Virginia through the Civil War. Genealogists will value the book, in part, as a companion volume to such Augusta County source record collections as Lyman Chalkley's Chronicles of the Scotch-Irish Settlement in Virginia. Of greater importance to genealogists, however, are the genealogical and biographical sketches of a number pioneering Augusta County families found in the Appendix to the volume.
This is the first and only book to offer a comprehensive survey of accounting research on a broad international scale for the last two centuries. Its main emphasis is on accounting research in the English, German, Italian, French and Spanish language areas; it also contains chapters dealing with research in Finland, the Netherlands, Scand
This textbook covers the basic physics of semiconductors and their applications to practical devices, with emphasis on the basic physical principles upon which these devices operate. Extensive use of figures is made to enhance the clarity of the presentation and to establish contact with the experimental side of the topic. Graduate students and lecturers in semiconductor physics, condensed matter physics, electromagnetic theory, and quantum mechanics will find this a useful textbook and reference work.
Have you ever looked to the skies to see a shooting star? In Golfing Blue, every fifty years, you can look up at the sky and see the streak of blue light from Jeffrey’s comet. This can only mean one thing for the students of Hellman Elementary—even more bizarre happenings! Taking on the teachers at the school is next to nothing compared to Jeffrey’s comet and who may be riding it. Strange things are happening this week at Hellman Elementary. Changes are occurring, teachers are just as strange, and the janitor is locking doors more often than normal. What could possibly be hiding in the basement? What does the lunch lady really use to make the Sloppy Joes? Does it have something to do with comet shooting across the sky? Jacob is about to find out the dangers of wishing upon shooting stars. He is tired of being the only boy in his family and tired of the way his sisters treat him. But when he wishes for a different family, he finds out just how strange things can get, not only at home but at school as well. Will Jacob get his original family back, or will he be destined to live with his new nightmarish family? Do not miss the next bizarre event, The Perfect Game—Book 5, in the series.
The greatest mystery of life is how a single fertilized egg develops into a fully functioning, sometimes conscious multicellular organism. Embryogenesis Explained offers a new theory of how embryos build themselves, and combines simple physics with the most recent biochemical and genetic breakthroughs, based on the authors' prediction and then discovery of differentiation waves. They explain their ideas in a form accessible to the lay person and a broad spectrum of scientists and engineers. The diverse subjects of development, genetics and evolution, and their physics, are brought together to explain this major, previously unanswered scientific question of our time.As a follow up on The Hierarchical Genome, this book is a shorter but conceptually expanded work for the reader who is interested in science. It is useful as a starting point for the curious layman or the scientist or professional encountering the problem of embryogenesis without the formal biology background. There is also material useful for the seasoned biologist caught up in the new rush of information about the role of mechanics in developmental biology and cellular level mechanics in medicine.
The study of electronic structure of materials is at a momentous stage, with new computational methods and advances in basic theory. Many properties of materials can be determined from the fundamental equations, and electronic structure theory is now an integral part of research in physics, chemistry, materials science and other fields. This book provides a unified exposition of the theory and methods, with emphasis on understanding each essential component. New in the second edition are recent advances in density functional theory, an introduction to Berry phases and topological insulators explained in terms of elementary band theory, and many new examples of applications. Graduate students and research scientists will find careful explanations with references to original papers, pertinent reviews, and accessible books. Each chapter includes a short list of the most relevant works and exercises that reveal salient points and challenge the reader.
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