Instead of fixating on formulae, Soil Mechanics: Concepts and Applications, Third Edition focuses on the fundamentals. This book describes the mechanical behaviour of soils as it relates to the practice of geotechnical engineering. It covers both principles and design, avoids complex mathematics whenever possible, and uses simple methods and ideas to build a framework to support and accommodate more complex problems and analysis. The third edition includes new material on site investigation, stress-dilatancy, cyclic loading, non-linear soil behaviour, unsaturated soils, pile stabilization of slopes, soil/wall stiffness and shallow foundations. Other key features of the Third Edition: • Makes extensive reference to real case studies to illustrate the concepts described • Focuses on modern soil mechanics principles, informed by relevant research • Presents more than 60 worked examples • Provides learning objectives, key points, and self-assessment and learning questions for each chapter • Includes an accompanying solutions manual for lecturers This book serves as a resource for undergraduates in civil engineering and as a reference for practising geotechnical engineers.
The aim of this book is to encourage students to develop an understanding of the fundamentals of soil mechanics. It builds a robust and adaptable framework of ideas to support and accommodate the more complex problems and analytical procedures that confront the practising geotechnical engineer. Soil Mechanics: Concepts and Applications covers the soil mechanics and geotechnical engineering topics typically included in university courses in civil engineering and related subjects. Physical rather than mathematical arguments are used in the core sections wherever possible. New features for the second edition include: an accompanying website containing the lecturers solutions manual; a revised chapter on soil strength and soil behaviour separating the basic and more advanced material to aid understanding; a major new section on shallow foundations subject to combined vertical, horizontal and moment loading; revisions to the material on retaining walls, foundations and filter design to account for new research findings and bring it into line with the design philosophy espoused by EC7. More than 50 worked examples including case histories Learning objectives, key points and example questions
Here is the complete source of information on egg handling, processing, and utilization. Egg Science and Technology, Fourth Edition covers all aspects of grading, packaging, and merchandising of shell eggs. Full of the information necessary to stay current in the field, Egg Science and Technology remains the essential reference for everyone involved in the egg industry. In this updated guide, experts in the field review the egg industry and examine egg production practices, quality identification and control, egg and egg product chemistry, and specialized processes such as freezing, pasteurization, desugarization, and dehydration. This updated edition explores new and recent trends in the industry and new material on the microbiology of shell eggs, and it presents a brand-new chapter on value-added products. Readers can seek out the most current information available in all areas of egg handling and discover totally new material relative to fractionation of egg components for high value, nonfood uses. Contributing authors to Egg Science and Technology present chapters that cover myriad topics, ranging from egg production practices to nonfood uses of eggs. Some of these specific subjects include: handling shell eggs to maintain quality at a level for customer satisfaction trouble shooting problems during handling chemistry of the egg, emphasizing nutritional value and potential nonfood uses merchandising shell eggs to maximize sales in refrigerated dairy sales cases conversion of shell eggs to liquid, frozen, and dried products value added products and opportunities for merchandising egg products as consumers look for greater convenience Egg Science and Technology is a must-have reference for agricultural libraries. It is also an excellent text for upper-level undergraduate and graduate courses in food science, animal science, and poultry departments and is an ideal guide for professionals in related food industries, regulatory agencies, and research groups.
This significant book conveys Dr. William E. Paul’s enduring enthusiasm for the field of immunology, the incredible accomplishments of the past half-century, and the future’s untapped promises. The immune system has incredible power to protect us from the ravages of infection by killing disease-causing microbes or eliminating them from the body. Boosted by vaccines, it can protect us individually and as a "herd" from diseases such as measles. As Dr. Paul explains, however, the power of the immune system is a double-edged sword: an overactive immune system can wreak havoc, destroying normal tissue and causing diseases such as type I diabetes, rheumatoid arthritis, and multiple sclerosis. The consequences of an impaired immune system, on the other hand, are all too evident in the clinical agonies of AIDS and other immunodeficiency diseases. Packed with illustrations, stories from Dr. Paul’s distinguished career, and compelling narratives of scientific discovery, Immunity presents the three laws of the human immune system―universality, tolerance, and appropriateness―and explains how the system protects and harms us. From the tale of how smallpox was overcome to the lessons of the Ebola epidemic to the utility of vaccines and the hope that the immune system can be used to treat or prevent cancer, Dr. Paul argues that we must position ourselves to take advantage of cutting-edge technologies and promising new tools in immunological research, including big data and the microbiome.
Since the 1990s, the expropriation of canonical works of cinema has been a fundamental dimension of art-film exploration. Rainer Werner Fassbinder provides an early model of open adaptation of film classics, followed ever more boldly by the Coen Brothers, Chantal Akerman, Alex Carax, Todd Haynes, Florian Henckel von Donnersmarck, Baz Luhrmann, and Olivier Assayas. This book devotes chapters to each of these directors to examine how their films redeploy landmark precursors such as City Lights (1931), Citizen Kane (1941), Rome Open City (1945), All About Eve (1950), and Vertigo (1958) in order to probe our psychological, philosophical, and historical situations in a postmodern société du spectacle. In broadly diverse ways, each of these directors complicates received notions of the past and its representation, while probing the transformative media evolution and dislocation of the present, in film art and in society.
This publication replaces the CIRIA report from 1984, R104 Design of retaining walls embedded in stiff clays. It provides best practice guidance on the selection and design of vertical embedded retaining walls.
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