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In this book, Elissa Zellinger analyzes both political philosophy and poetic theory in order to chronicle the consolidation of the modern lyric and the liberal subject across the long nineteenth century. In the nineteenth-century United States, both liberalism and lyric sought self-definition by practicing techniques of exclusion. Liberalism was a political philosophy whose supposed universals were limited to white men and created by omitting women, the enslaved, and Native peoples. The conventions of poetic reception only redoubled the sense that liberal selfhood defined its boundaries by refusing raced and gendered others. Yet Zellinger argues that it is precisely the poetics of the excluded that offer insights into the dynamic processes that came to form the modern liberal and lyric subjects. She examines poets—Frances Sargent Osgood, Elizabeth Oakes Smith, Frances Ellen Watkins Harper, Edna St. Vincent Millay, and E. Pauline Johnson—whose work uses lyric practices to contest the very assumptions about selfhood responsible for denying them the political and social freedoms enjoyed by full liberal subjects. In its consideration of politics and poetics, this project offers a new approach to genre and gender that will help shape the field of nineteenth-century American literary studies.
US-Japan meetings on laboratory animal science have been held virtually every year since 1980 under the US-Japan Cooperative Program on Science and Technology. Over the years these meetings have resulted in a number of important documents including the Manual of Microbiologic of Monitoring of Laboratory Animals published in 1994 and the article Establishment and Preservation of Reference Inbred Strains of Rats for General Purposes published in 1991. In addition to these publications, these meetings have been instrumental in increasing awareness of the need for microbiologic monitoring of laboratory rodents and the need for genetic definition and monitoring of mice and rats.
Widely adopted around the world, this is a core materials science and mechanical engineering text. Engineering Materials 1 gives a broad introduction to the properties of materials used in engineering applications. With each chapter corresponding to one lecture, it provides a complete introductory course in engineering materials for students with no previous background in the subject. Ashby & Jones have an established, successful track record in developing understanding of the properties of materials and how they perform in reality. One of the best-selling materials properties texts; well known, well established and well liked New student friendly format, with enhanced pedagogy including many more case studies, worked examples, and student questions World-renowned author team
AN INTEGRATED FRAMEWORK FOR STRUCTURAL GEOLOGY A modern and practice-oriented approach to structural geology An Integrated Framework for Structural Geology: Kinematics, Dynamics, and Rheology of Deformed Rocks builds a framework for structural geology from geometrical description, kinematic analysis, dynamic evolution, and rheological investigation of deformed rocks. The unique approach taken by the book is to integrate these principles of continuum mechanics with the description of rock microstructures and inferences about deformation mechanisms. Field, theoretical and laboratory approaches to structural geology are all considered, including the application of rock mechanics experiments to nature. Readers will also find: Three case studies that illustrate how the framework can be applied to deformation at different levels in the crust and in an applied structural geology context Hundreds of detailed, two-color illustrations of exceptional clarity, as well as many microstructural and field photographs The quantitative basis of structural geology delivered through clear mathematics Written for advanced undergraduate and graduate students in geology, An Integrated Framework for Structural Geology will also earn a place in the libraries of practicing geologists with an interest in a one-stop resource on structural geology.
Presents a new physical and mathematical theory of irreversible deformations and ductile fracture of metals that acknowledges the continuous change in the structure of materials during deformation and the accumulation of deformation damage. Plastic deformation, viscous destruction, evolution of structure, creep processes, and long-term strength of metals and stress relaxation are described in the framework of a unified approach and model. The author then expands this into a mathematical model for determining the mechanical characteristics of quasi-samples of standard mechanical properties in deformed semi-finished products.
This unique book provides a comprehensive and comparative guide to the immune systems of major vertebrate species, including domestic and wild animals of veterinary or medical interest, fish and amphibia. Data in this essential reference work has been compiled by world-renowned editors and an international group of authors. For each species, the information is presented in a structured 'user-friendly' format allowing easy cross reference and comparison between the various species.This book will be considered the definitive reference work on vertebrate immunology and will be essential for scientists and professionals working in Immunology, Vaccinology or with Animal Models, for students of Veterinary or Human Medicine, Biology and researchers in Comparative Medicine and Physiology.Each section, devoted to a major animal group covers: - Lymphoid organs and their anatomical disposition - Leukocytes and their markers - Leukocyte traffic and associated molecules - Cytokines - T cell receptors - Immunoglobulins - MHC antigens - Ontogeny of the immune system - Passive transfer of immunity - Neonatal immune responses - Non-specific immunity - Complement system - Mucosal immunity - Immunodeficiencies - Tumours of the immune system - Autoimmunity
R.S. Rivlin is one of the principal architects of nonlinear continuum mechanics: His work on the mechanics of rubber (in the 1940s and 50s) established the basis of finite elasticity theory. These volumes make most of his scientific papers available again and show the full scope and significance of his contributions.
Finite element analysis for non-linear solids and structure porblems.