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Of all the scientific works that have influenced the social sciences and humanities, none has matched the profound effect of the work of Isaac Newton. In his 1687 masterpiece Principia Mathematica he laid the foundation of classical mechanics in his discoveries of the laws of motion and the law of universal gravitation. He reoriented human understanding of the cosmos, thus boosting the confidence of human beings to access elements of what they saw as the divine logic behind the order of things and to have a sense of control over it. From the nineteenth century to the present day, Newton's science has inspired scholars of society in their attempts to discern the patterns of social life. For others, such a positivist project serves as a cautionary tale to be resisted by contemporary social sciences. This book considers the original and continuing legacy of Newtonian theories and imaginaries in the vast array of human attempts to understand the world. Drawing from a range of disciplines—including anthropology, sociology, the history of science, literary studies, cultural studies, social theory and economics—the essays in this volume engage with Newton as a thinker and examine his legacy. Some contributions illustrate the power of physical metaphors in understanding the social world; many others point to the limits of this endeavour. Still others show how since the eighteenth century Newtonian thought has influenced thinkers as diverse as Blake, Marx, Freud and Pierre Bourdieu. This innovative collection prompts a reconsideration of the importance of Newton for the social sciences and humanities.
This is a biomechanics book with a difference. In it, Dr Cleather shows why an understanding of force is a critical factor in planning effective training programmes. Along the way, he debunks many myths that are prevalent within the strength and conditioning community. Written in digestible short chapters and assuming no prior biomechanical knowledge, 'Force' is essential reading for all coaches and athletes.
"This comprehensive book presents an integrated study of human movement and applies this knowledge to human performance and physical activity across the lifespan. The Biophysical Foundations of Human Movement, Second Edition, considers basic methods and concepts, typical research questions, key historical developments, professional training and organizations, and suggestions for further reading within each subdiscipline. The authors offer a unique perspective on the subdisciplines by exploring not only the basic science but also the changes in human movement and movement potential that occur throughout the lifespan as well in response to training, practice, and other lifestyle factors.".
Biophysical Foundations of Human Movement, Third Edition, introduces readers to key concepts concerning the anatomical, mechanical, physiological, neural, and psychological bases of human movement. The text provides undergraduate students with a broad foundation for more detailed study of the subdisciplines of human movement and for cross-disciplinary studies. Readers will learn the multi-dimensional changes in movement and movement potential that occur throughout the life span as well as those changes that occur as adaptations to training, practice, and other lifestyle factors. This third edition includes the latest research and improved presentation to address areas of growth and change in the fields of human movement. The following are important updates to this edition: • A new chapter on historical origins of human movement science provides students with an appreciation of the development of the field as well as its future directions. • Content regarding exercise physiology has been reorganized to provide more discrete coverage of key concepts in nutrition. • A new concluding section focuses on applications in the areas of prevention and management of chronic disease, prevention and management of injury, and performance enhancement in sport and the workplace, as well as the benefits of sport and exercise science to work, sport, and everyday living. • Ancillary materials support instructors in teaching across disciplines as they assist students in understanding the breadth of content in this comprehensive text. Using a modular approach to teaching sport and exercise science, Biophysical Foundations of Human Movement, Third Edition, offers students a structured understanding of how the subdisciplines work independently and in tandem. Following a general introduction to the field of human movement studies, readers are introduced to basic concepts, life-span changes, and adaptations arising in response to training in each of the five major biophysical subdisciplines of human movement. Each subdiscipline is given a brief introduction, including the definition and historical development of the subdiscipline, the typical issues and problems it addresses, the levels of analysis it uses, and relevant professional training and organizations. Multi-disciplinary and cross-disciplinary approaches to human movement are also discussed along with contemporary applications. By studying the integration of knowledge from a number of the biophysical subdisciplines, students will be better prepared for advanced study and careers reliant on the integration of knowledge from various disciplines and perspectives. The third edition offers tools for retaining the material, including learning objectives and summaries in each chapter, a glossary, and lists of web-based resources. Throughout the text, special “In Focus” features highlight key organizations, individuals, and studies from around the world that have contributed to the current understanding of human movement. These features help readers appreciate the evolution of the field so that they may better understand its direction. Students interested in further study will find specialized texts for each of the subdisciplines listed in the Further Reading and References section of each chapter along with updated lists of websites. The third edition of Biophysical Foundations of Human Movement offers a comprehensive introduction for students, scientists, and practitioners involved in the many professions grounded in or related to human movement, kinesiology, and sport and exercise science. By considering the effect of adaptations in each of the biophysical subdisciplines of human movement, Biophysical Foundations of Human Movement also illustrates the important role physical activity plays in the maintenance of health throughout the life span.
Every year workers' low-back, hand, and arm problems lead to time away from jobs and reduce the nation's economic productivity. The connection of these problems to workplace activities-from carrying boxes to lifting patients to pounding computer keyboards-is the subject of major disagreements among workers, employers, advocacy groups, and researchers. Musculoskeletal Disorders and the Workplace examines the scientific basis for connecting musculoskeletal disorders with the workplace, considering people, job tasks, and work environments. A multidisciplinary panel draws conclusions about the likelihood of causal links and the effectiveness of various intervention strategies. The panel also offers recommendations for what actions can be considered on the basis of current information and for closing information gaps. This book presents the latest information on the prevalence, incidence, and costs of musculoskeletal disorders and identifies factors that influence injury reporting. It reviews the broad scope of evidence: epidemiological studies of physical and psychosocial variables, basic biology, biomechanics, and physical and behavioral responses to stress. Given the magnitude of the problem-approximately 1 million people miss some work each year-and the current trends in workplace practices, this volume will be a must for advocates for workplace health, policy makers, employers, employees, medical professionals, engineers, lawyers, and labor officials.
The unifying theme of every elite athlete and every spectacular performance is movement. It’s the basis for what we recognize as athleticism. It’s the foundation for athletic skill and the essential ingredient to excellence. Athletic Movement Skills: Training for Sports Performance sets a new standard for athletic assessment and development. This authoritative work presents proven protocols for evaluating, correcting, training and translating athletic movement to athletic dominance. Combining the latest science and research with cutting-edge techniques and strategies, Athletic Movement Skills will show you how to - develop multidirectional speed and power for any sport and any position, - improve jumping and agility with effective plyometric progressions, - harness and apply power in critical game or match situations, - evaluate and correct posture and body position, - reduce injuries and expedite rehabilitation and - create functional strength progressions that will directly translate to on-field performance. Hundreds of photo sequences and illustrations plus 10 detailed exercise progressions depict how to refine and perfect speed, agility, strength and power-related movements and skills. Whether you are working with young or experienced, novice or elite athletes, Athletic Movement Skills is a must-have. It is the definitive development guide for anyone serious about sport performance. Earn continuing education credits/units! A continuing education course and exam that uses this book is also available. It may be purchased separately or as part of a package that includes all the course materials and exam.
Book “Hypotheses-3: Genesis and Evolution of Atoms and Cosmic Bodies”. is the final one in the series “Hypotheses. Serkov AT ". The first book in this series was published in 1998. This book examines the formation of chemical elements, their evolution and decay. The initial product is hydrogen (protons), which is formed by condensation of sub-elementary particles and during nuclear reactions by the mechanism of the formation of «secondary drops» when a «drop» of nuclear liquid hits the surface of the liquid nucleus of an atom (crown splash effect). An increase in the mass of atoms occurs as a result of the orbital capture of atoms of light elements, their subsequent deceleration and fall on the nucleus, as a result of which the frequency of rotation of nuclei increases, leading to periodic disruption of dynamic boundary layers and, accordingly, to a periodic change in the properties of chemical elements. An increase in the speed of rotation of stars with an increase in their mass indicates the occurrence of similar processes in space and the main sequence in the Hertzsprung-Russell diagram reflects the process of an increase in the mass of stars due to orbital captures of red and brown dwarfs. Periodic changes in the properties of exoplanetary systems are predicted depending on the mass of stars, in particular, their sizes.
This title is available in three eBook versions. Please review the descriptions below to ensure you choose the right title for your needs. · Biomechanical Basis of Human Movement: the full text · Biomechanical Basis of Human Movement: Functional Anatomy, consisting of Section I: Foundations of Human Movement and Section II: Functional Anatomy · Biomechanical Basis of Human Movement: Mechanical Analysis of Human Motion, consisting of key content from Section I: Foundations of Human Movement and Section III: Mechanical Analysis of Human Motion
Providing a solid foundation in the normal development of functional movement, Functional Movement Development Across the Life Span, 4th Edition helps you recognize and understand typical functional movement in individuals from infancy to older adulthood, providing a framework from which to identify movement disorders and effectively manage patients with abnormal motor function. Divided into three units, this edition describes 1) theoretical frameworks of development, motor control/motor learning, and health/wellness; 2) anatomical and physiological development of the body systems comprising the movement system (muscular, skeletal, cardiopulmonary, nervous, sensory, integumentary, and endocrine); and 3) life span description of the movement functions of posture, balance, locomotion, prehension, and fitness. This edition integrates themes of the movement system, life span development, and health/wellness, providing you with the most current information needed for clinical decision making and to be an effective practitioner. Written by physical therapy experts Donna J. Cech, Suzanne "Tink" Martin, and William Staples, this book provides the evidence-based information and tools needed to understand functional movement and manage patients' functional skills throughout the life span. Dr. Staples brings his expertise in geriatric physical therapy and exercise in aging, enriching content on aging throughout the book. More than 200 illustrations, tables, and special features clarify developmental concepts, address clinical implications, and summarize key points relating to clinical practice. A logical, easy-to-read format includes 13 chapters organized into three units covering the definition of functional movement, movement system contribution to functional movement across the life span, and functional movement outcomes. A focus on evidence-based information covers development changes across the life span and how they impact function. NEW! The movement system framework is incorporated throughout, as well as a focus on health and wellness. NEW! Clinical Implication boxes help you apply information into a clinical framework. Revised content throughout provides you with the most current information needed to be an effective practitioner. Updated references ensure content is current and applicable for today’s practice. NEW! An ebook version is included with print purchase. The ebook allows you to access all the text, figures, and references, with the ability to search, customize your content, make notes, and highlights, and have content read aloud.
Neuromechanics of Human Movement, Fourth Edition, provides a scientific foundation to the study of human movement by exploring how the nervous system controls the actions of muscles to produce human motion in relation to biomechanical principles.