The book titled 'Six Gun Justice' is a fictional account of the life of the main character, Jim Vogt. The story begins with Jim and his father are off hunting and a tragedy happens to his mother and brother. A group of evil men rapes and murders the mother and takes Jim's young brother Peter off to sell into slavery. Jim is sent to his uncle Martin to live, while the father tries to track down the evil men. Fifteen years later, while living in Texas, tragedy again strikes Jim's loved ones. His pregnant wife is raped and murdered and he sets out on a trail of revenge. It takes a long time, but he tracks down the criminals and metes out his own brand of justice on them. On his travels he meets and falls in love, and meets someone who knows his brother. He settles down with his new wife and one day his long lost brother appears at his door. He stays with Jim for a period of time. He then sets out on his own and marries. He takes on the job of sheriff. He has some trouble with a local rancher and calls on Jim for help. Peter and his wife then travel to California. At this time Jim receives a letter from his long missing father, who happens to live in California. Jim is able to contact both his father and brother and arranges for them to return back to his ranch. The family is reunited and a new generation of'Vogts' is started.
The book titled Lone Star Justice is a fictional account of the main character, Sam Waters. In the second half of the book, he teams up with Jim Vogt, who is the hero of the book titled Six Gun Justice. Tragedy strikes Sam as a young lad. His sense of duty leads him to become a Texas Ranger. His job requires him to track down a notorious outlaw in the region. Jack Martin leads a gang of outlaws, who wreak havoc against all who come in contact with them. Sam meets up with his blood brother, White Eagle, who has discovered the gangs hideout. They go in separate directions to get help in their efforts to destroy the gang. They rejoin forces and attack the compound. The gang is virtually destroyed, but Martin manages to escape. He flees the area and arrives in Cranston Valley. There he joins forces with an evil rancher and they attempt to take over complete control. Sam follows his trail in an attempt to bring him to justice. Meanwhile the Governor has sent Jim Vogt to the valley to help quell the disturbance. Sam and Jim unite and manage to galvanize the citizens of the valley. They eventually put an end to the terror in the valley. Martin meets Sam in a show down, and the ranger emerges victorious. Jim returns to his ranch and Sam returns to Fielders Crossing, until duty calls again.
The story of the Taylors of Tennessee offers a perspective that is as entertaining as it is instructive. Many of the major themes of the broader story are here in abundance, enlivened by the triumphs and travails of some of the individuals who helped to make this land ours-and yours. W. Eugene Cox and Joyce Cox demonstrate how the thread of family connects past to present. In the process, they bring to life an American history full to overflowing with challenges and opportunities.
Robotic exoskeletons that allow stroke survivors to regain use of their limbs, 3D-printed replacement body parts, and dozens of other innovations still in schematic design are revolutionizing the treatment of debilitating injuries and nervous system disorders. What all these technologies have in common is that they are modeled after engineering strategies found in nature—strategies developed by a vast array of organisms over eons of evolutionary trial and error. Eugene Goldfield lays out many principles of engineering found in the natural world, with a focus on how evolutionary and developmental adaptations, such as sensory organs and spinal cords, function within complex organisms. He shows how the component parts of highly coordinated structures organize themselves into autonomous functional systems. For example, when people walk, spinal cord neurons generate coordinated signals that continuously reorganize patterns of muscle activations during the gait cycle. This self-organizing capacity is just one of many qualities that allow biological systems to be robust, adaptive, anticipatory, and self-repairing. To exploit the full potential of technologies designed to interact seamlessly with human bodies, properties like these must be better understood and harnessed at every level, from molecules to cells to organ systems. Bioinspired Devices brings together insights from a wide range of fields. A member of the Wyss Institute for Biologically Inspired Engineering, Goldfield offers an insider’s view of cutting-edge research, and envisions a future in which synthetic and biological devices share energy sources and control, blurring the boundary between nature and medicine.
Among all the Hamiltonian systems, the integrable ones have special geometric properties; in particular, their solutions are very regular and quasi-periodic. This book serves as an introduction to symplectic and contact geometry for graduate students, exploring the underlying geometry of integrable Hamiltonian systems. Includes exercises designed to complement the expositiont, and up-to-date references.
Now in its 4th edition, Kirklin/Barratt-Boyes Cardiac Surgery remains your indispensable source for definitive, state-of-the-art answers on every aspect of adult and pediatric cardiac surgery. This dynamic medical reference thoroughly and systematically covers the full range of new and classic surgical procedures—including the latest alternate and minimally invasive surgical techniques—and presents the up-to-date clinical evidence you need to make effective management decisions. Be certain with expert, dependable, accurate answers for every stage of your career from the most comprehensive, definitive text in the field! Get comprehensive coverage of all areas of cardiac surgery, including ischemic, valvular, and congenital heart disease; cardiac tumors; constrictive pericarditis; thoracic aortic surgery; cardiac transplantation; coronary artery disease; aortic valve disease; cardiac rhythm disturbances; heart failure and transplantation; disease of the thoracic aorta; tetralogy of Fallot; anesthesia; and postoperative care. Stay current with the latest advancements and practices. Comprehensive updates throughout include new information on endovascular management of thoracic aorta disease; new data on clinical outcomes; the most recent minimally invasive procedures; non-invasive CT angiography; new alternative surgical approaches to mitral valve surgery; and many other hot topics! Make the most well-informed decisions and achieve optimal outcomes by exploring each condition's natural history; diagnostic criteria; indications for surgery; operative techniques; and follow-up care. Reference information quickly thanks to a new, streamlined format.
Disease Pathways: An Atlas of Human Disease Signaling Pathways is designed to fill a void of illustrated reviews about the cellular mechanisms of human diseases. It covers 42 of the most common non-oncologic diseases and illustrates the connections between the molecular causes of the disease and its symptoms. This resource provides readers with detailed information about the disease molecular pathways, while keeping the presentation simple. Pathway models that aggregate the knowledge about protein–protein interactions have become indispensable tools in many areas of molecular biology, pharmacology, and medicine. In addition to disease pathways, the book includes a comprehensive overview of molecular signaling biology and application of pathway models in the analysis of big data for drug discovery and personalized medicine. This is a must-have reference for general biologists, biochemists, students, medical workers, and everyone interested in the cellular and molecular mechanisms of human disease. Over 145 full-color illustrations of the molecular and cellular cascades underlying the disease pathology. Disease pathways are based on computational models from Elsevier’s Disease Pathway Collection, published for the first time outside of Pathway Studio® commercial software. Each relationship on the pathway models is supported by references to scientific articles and can be examined at freely available online resources.
Emerging in several different versions during the author's lifetime, Lewis Carroll's Alice novels have a publishing history almost as magical and mysterious as the stories themselves. Zoe Jaques and Eugene Giddens offer a detailed and nuanced account of the initial publication of Alice's Adventures in Wonderland and Through the Looking-Glass and investigate how their subsequent transformations through print, illustration, film, song, music videos, and even stamp-cases and biscuit tins affected the reception of these childhood favourites. The authors consider issues related to the orality of the original tale and its impact on subsequent transmission, the differences between the manuscripts and printed editions, and the politics of writing and publishing for children in the 1860s. In addition, they take account of Carroll's own responses to the books' popularity, including his writing of major adaptations and a significant body of meta-textual commentary, and his reactions to the staging of Alice in Wonderland. Attentive to the child reader, how changing notions of childhood identity and needs affected shifting narratives of the story, and the representation of the child's body by various illustrators, the authors also make a significant contribution to childhood studies.
The investigation of language, of how (and what and why) signifiers signify, is prominent in modern critical work, but the questions being asked are by no means new. In Mervelous Signals, Eugene Vance asserts that "there is scarcely a term, practice, or concept in contemporary theory that does not have some rich antecedent in medieval thought." He goes on to illustrate the complexity and depth of medieval speculations about language and literature. Vance's study of the link between the poetics and semiotics of the Middle Ages takes both a critical and a historical view as he brings today's insights to bear on the contemporary perspectives of such works as St. Augustine's Confessions, the Chanson de Roland, Chrätien's Yvain, Aucassin and Nicolette, Spenser's The Faerie Queen, and certain aspects of the works of Dante and Chaucer and of French medieval theater.
Advances in the study of dynamical systems have revolutionized the way that classical mechanics is taught and understood. Classical Dynamics, first published in 1998, is a comprehensive textbook that provides a complete description of this fundamental branch of physics. The authors cover all the material that one would expect to find in a standard graduate course: Lagrangian and Hamiltonian dynamics, canonical transformations, the Hamilton-Jacobi equation, perturbation methods, and rigid bodies. They also deal with more advanced topics such as the relativistic Kepler problem, Liouville and Darboux theorems, and inverse and chaotic scattering. A key feature of the book is the early introduction of geometric (differential manifold) ideas, as well as detailed treatment of topics in nonlinear dynamics (such as the KAM theorem) and continuum dynamics (including solitons). The book contains many worked examples and over 200 homework exercises. It will be an ideal textbook for graduate students of physics, applied mathematics, theoretical chemistry, and engineering, as well as a useful reference for researchers in these fields. A solutions manual is available exclusively for instructors.
A joy to read from two of the most prominent geologists who have worked for the better part of their careers in the Florida Keys. Places important environmental focus on modern-day issues facing the island ecosystems, the health of Florida Bay, the nearshore areas, and ultimately the reef tract."--Donald F. McNeill, University of Miami "A compelling narrative that weaves fascinating historical personalities and periods with the geological characteristics of the Florida Keys into a colorful tapestry. A fun, interesting, and informative read!"--Eugene C. Rankey, University of Kansas Two world-class geologists draw on their prolific fifty-year careers in this comprehensive guide to the geology and biology of the Florida Keys and Florida Bay. Eugene Shinn and Barbara Lidz dive into the past, present, and future of an area that has long been a natural laboratory for learning about coral reef formation and the origins of limestone. They explain how underlying Pleistocene topography controls the shapes of today's coral reefs, how sea-level rise created Florida Bay, and how hurricanes mold limemud banks and strip vegetation from the Florida Keys. They discuss the recent decline of coral reefs due to overpopulation, pollution, climate change, and other factors. An itinerary is included for a hands-on three-day field trip, guiding visitors to the best places to see the famous reef formations and geologic processes of the Keys. As glaciers continue to melt and reform at Earth's poles, sea level is currently rising and will fall again at some point in the geologic future. In this volume, Shinn and Lidz demonstrate the value of the Keys and immediate surroundings as an environmental laboratory to study past effects of sea-level change and to stimulate ideas for further research.
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