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Over the last fifty-plus years, the increased complexity and speed of integrated circuits have radically changed our world. Today, semiconductor manufacturing is perhaps the most important segment of the global manufacturing sector. As the semiconductor industry has become more competitive, improving planning and control has become a key factor for business success. This book is devoted to production planning and control problems in semiconductor wafer fabrication facilities. It is the first book that takes a comprehensive look at the role of modeling, analysis, and related information systems for such manufacturing systems. The book provides an operations research- and computer science-based introduction into this important field of semiconductor manufacturing-related research.
An understanding ofthe properties and the handling characteristics of liquids and gases has long been regarded as an essential requirement for most practising engineers. It is therefore not surprising that, over the years, there has been a regular appearance of books dealing with the fundamentals of fluid mechanics, fluid flow, hydraulics and related topics. What is surprising is that there has been no parallel development of the related discipline of Bulk Solids Handling, despite its increasing importance in modern industry across the world. It is only very recently that a structured approach to the teaching, and learning, of the subject has begun to evolve. A reason for the slow emergence of Bulk Solids Handling as an accepted topic of study in academic courses on mechanical, agricultural, chemical, mining and civil engineering is perhaps that the practice is so often taken for granted. Certainly the variety of materials being handled in bulk is almost endless, ranging in size from fine dust to rocks, in value from refuse to gold, and in temperature from deep-frozen peas to near-molten metal.
Sonochemistry is studied primarily by chemists and sonoluminescence mainly by physicists, but a single physical phenomenon - acoustic cavitation - unites the two areas. The physics of cavitation bubble collapse, is relatively well understood by acoustical physicists but remains practically unknown to the chemists. By contrast, the chemistry that gives rise to electromagnetic emissions and the acceleration of chemical reactions is familiar to chemists, but practically unknown to acoustical physicists. It is just this knowledge gap that the present volume addresses. The first section of the book addresses the fundamentals of cavitation, leading to a more extensive discussion of the fundamentals of cavitation bubble dynamics in section two. A section on single bubble sonoluminescence follows. The two following sections address the new scientific discipline of sonochemistry, and the volume concludes with a section giving detailed descriptions of the applications of sonochemistry. The mixture of tutorial lectures and detailed research articles means that the book can serve as an introduction as well as a comprehensive and detailed review of these two interesting and topical subjects.
-Based on a comprehensive and exhaustive empirically-based analysis of children's play: the research observed and analyzed the play activities of 289 children who are developing typically, and 203 children who are developing with delays. -Use children's naturally occurring play activities for evaluation, as opposed to eliciting responses to contrived tasks or questions for the child or caregiver -Geared specifically for personnel who serve young children - from late infancy through the preschool period who are developing with delays: no other system covers the age span of late infancy through the preschool period. - The assessment is "language free" - does not require children to answer questions, thereby extending its use to children from various cultural backgrounds, children who are developing with language delays, and those with relevant disabilities. -Ideal where parents or caregivers may not be fully aware of what their child knows or can do. -The online training program for practitioners is designed for exclusive online use, rendering it appealing for wide-spread use.
There is a unity to physics; it is a discipline which provides the most fundamental understanding of the dynamics of matter and energy. To understand anything about a physical system you have to interact with it and one of the best ways to learn something is to use electrons as probes. This book is the result of a meeting, which took place in Magdalene College Cambridge in December 2001. Atomic, nuclear, cluster, soHd state, chemical and even bio- physicists got together to consider scattering electrons to explore matter in all its forms. Theory and experiment were represented in about equal measure. It was meeting marked by the most lively of discussions and the free exchange of ideas. We all learnt a lot. The Editors are grateful to EPSRC through its Collaborative Computational Project program (CCP2), lOPP, the Division of Atomic, Molecular, Optical and Plasma Physics (DAMOPP) and the Atomic Molecular Interactions group (AMIG) of the Institute of Physics for financial support. The smooth running of the meeting was enormously facilitated by the efficiency and helpfulness of the staff of Magdalene College, for which we are extremely grateful. This meeting marked the end for one of us (CTW) of a ten-year period as a fellow of the College and he would like to take this opportunity to thank the fellows and staff for the privilege of working with them.
In this bold new study, Andrew J. Mason seeks both to shed light on the key issue of flux in Plato's work, and to show that there is also in Plato a notion of flow that needs to be distinguished from flux. Mason brings out the importance of this hitherto neglected distinction, and proposes on its basis a new way of understanding the development of Plato's thought. The opposition between the 'being' of Forms and the 'becoming' or 'flux' of sensibles has been fundamental to the understanding of Plato from Aristotle to the present day. One key concern of this volume is to clarify which kinds or levels of flux Plato accepts in sensibles. In addition, Mason argues that this traditional approach is unsatisfactory, as it leaves out the important notion of flow. Unlike flux, flow is a kind of motion that does not entail intrinsic change. It is also not restricted to the sensible, but covers motions of soul as well, including the circular motion of nous (intelligence) that is crucial in Plato's later thought, particularly his cosmology. In short, flow is not incompatible with 'being', and in this study Plato's development is presented, largely, as his arrival at this view, in correction of his earlier conflation of flux and flow in establishing the dichotomy between being and becoming. Mason's study offers fresh insights into many dialogues and difficult passages in Plato's oeuvre, and situates Plato's conception and usage of 'flow' and 'flux' in relation to earlier usage in the Greek poetic tradition and the Presocratic thinkers, particularly Heraclitus. The first study of its kind, Flow and Flux uncovers dimensions of Plato's thinking that may reshape the way his philosophy is understood.
"This is a very practical and easy to read book that could be very useful for nurses starting out in their careers. As the foreword states, it could be a resource for formal mentoring programs, residency programs, and nursing educational programs. The information and advice in this book may also keep new nurses from leaving the field if they are able to develop successful mentoring relationships. It is a bargain at $25.00."--Choice "For those looking for a mentor, this book provides invaluable advice on what attracts mentors and makes them believe in you and be willing to support your development...This book is an excellent resource for mentors and proteges."--Nurse Educator "Dr. Vance's pioneering work on mentorship has provided us with the language, understanding, and strategies for building these essential professional support relationships. This book extends her work in practical and useful ways that will help us build the new generation of excellent clinical experts, advocates, and nurse leaders." From the Foreword by Diana J. Mason, PhD, RN, FAAN Editor-in-Chief Emeritus, "The American Journal of Nursing" This newest addition to the Fast Facts series provides insight for proteges and mentors on using mentoring to build new generations of successful nurses. It covers a quick history of why mentoring is important, how a protege can identify and mentor, and how to develop and maintain a healthy mentor-protege relationship. It also contains the necessary tools to help novice nurses benefit from mentor support through difficult and sometimes frightening and confusing times. Written by Connie Vance, an innovator in nursing mentorship research, this book presents new nurses with tools to identify the perfect "mentor match" and cultivate the mentor relationship in ways that result in valuable career-building insight. It includes guidelines to ensure a truly valuable and influential mentor relationship, contributing to career success in nursing. Key Features: Contains guidelines for creating a personal mentor action plan, complete with a chart for use in mentoring practice Provides 10 tips on raising mentor intelligence and how to use it as a source for career success Highlights resources for networking and collective mentoring to assist in career development
Learn how to influence policy and become a leader in today's changing health care environment. Featuring analysis of cutting-edge healthcare issues and first-person insights, Policy & Politics in Nursing and Health Care, 8th Edition continues to be the leading text on nursing action and activism. Approximately 150 expert contributors present a wide range of topics in policies and politics, providing a more complete background than can be found in any other policy textbook on the market. This expanded 8th edition helps you develop a global understanding of nursing leadership and political activism, as well as the complex business and financial issues that drive many actions in the health system. Discussions include the latest updates on conflict management, health economics, lobbying, the use of media, and working with communities for change. With these innovative insights and strategies, you will be prepared to play a leadership role in the four spheres in which nurses are politically active: the workplace, government, professional organizations, and the community. Comprehensive coverage of healthcare policies and politics provides a broader understanding of nursing leadership and political activism, as well as complex business and financial issues. Key Points at the end of chapters helps you review important, need-to-know lesson content. Taking Action essays include personal accounts of how nurses have participated in politics and what they have accomplished. Expert authors make up a virtual Nursing Who's Who in healthcare policy, sharing information and personal perspectives gained in the crafting of healthcare policy. NEW! The latest information and perspectives are provided by nursing leaders who influenced health care reform, including the Affordable Care Act. NEW! Added information on medical marijuana presents both sides of this ongoing debate. NEW! More information on health care policy and the aging population covers the most up-do-date information on this growing population. NEW! Expanded information on the Globalization of Nursing explores international policies and procedures related to nursing around the world. NEW! Expanded focus on media strategies details proper etiquette when speaking with the press. NEW! Expanded coverage of primary care models and issues throughout text. NEW! APRN and additional Taking Action chapters reflect the most recent industry changes. NEW! Perspectives on issues and challenges in the government sphere showcase recent strategies and complications.
In the 1980's sonochemistry was considered to be a rather restricted branch of chemistry involving the ways in which ultrasound could improve synthetic procedures, predominantly in heterogeneous systems and particularly for organometallic reactions. Within a few years the subject began to expand into other disciplines including food technology, environmental protection and the extraction of natural materials. Scientific interest grew and led to the formation of the European Society of Sonochemistry in 1990 and the launch of a new journal Ultrasonics Sonochemistry in 1994. The subject continues to develop as an exciting and multi-disciplinary science with the participation of not only chemists but also physicists, engineers and biologists. The resulting cross-fertilisation of ideas has led to the rapid growth of interdisciplinary research and provided an ideal way for young researchers to expand their knowledge and appreciation of the ways in which different sciences can interact. It expands scientific knowledge through an opening of the closed doors that sometimes restrict the more specialist sciences. The journey of exploration in sonochemistry and its expansion into new fields of science and engineering is recounted in "Sonochemistry Evolution and Expansion" written by two pioneers in the field. It is unlike other texts about sonochemistry in that it follows the chronological developments in several very different applications of sonochemistry through the research experiences of the two authors Tim Mason and Mircea Vinatoru. Designed for chemists and chemical engineers Written by two experts and practitioners in the subject Volume 1 covers the historical background and evolution of sonochemistry Volume 2 explains the wider applications and expansion of the subject VOLUME 1 Fundamentals and Evolution This volume traces the evolution of sonochemistry from the very beginning when the effects of acoustic cavitation were first reported almost as a scientific curiosity. The major developments of the subject from the 1980's are described by the authors who became active participants in the field during that period. A chapter is devoted to ultrasonically assisted extraction (UAE) which illustrates the different ways in which sonochemical technologies can be applied in both batch and flow modes leading to the development of large-scale processing. The chapter on environmental protection shows the wide range of applications of sonochemistry in this important field for both biological and chemical decontamination.
This book is a collection of articles from several world-class researchers, and is inspired by Sir Roger Penrose's work. It gives an overview of the interaction between geometry and physics, from which many important developments have emerged. The volume collects together ideas from across the physical sciences, and indicates the many applications of geometrical ideas and techniques across mathematics and mathematical physics.
What does it mean when a life is changed through the serendipity of a chance encounter? How is it that someone can feel an affinity with a place? What is happening when someone feels almost literally transported to another time by a chance encounter with a smell or a texture or a song? In each of these cases a potent connection is being made, involving forces, flows, energies and atmospherics that conventional sociological approaches can find hard to grasp, but that are important nonetheless. In this innovative book Jennifer Mason argues that these are affinities potent charges and charismatically lively connections in our relationalities, that rise up and matter in some way and that enchant the everyday. She suggests that exploring affinities opens up new possibilities for conceptualizing the experience of living in the world, which she names the socio-atmospherics of everyday life. The book invites the reader to embrace possibilities and themes that may seem outside the usual range of sociology, and to engage in a more open, attentive, inventive and poetic sociological sensibility.
"Thinking Mathematically "is perfect for anyone who wants to develop their powers to think mathematically, whether at school, at university or just out of interest. This book is invaluable for anyone who wishes to promote mathematical thinking in others or for anyone who has always wondered what lies at the core of mathematics. "Thinking Mathematically" reveals the processes at the heart of mathematics and demonstrates how to encourage and develop them. Extremely practical, it involves the reader in questions so that subsequent discussions speak to immediate experience.
Over the last fifty-plus years, the increased complexity and speed of integrated circuits have radically changed our world. Today, semiconductor manufacturing is perhaps the most important segment of the global manufacturing sector. As the semiconductor industry has become more competitive, improving planning and control has become a key factor for business success. This book is devoted to production planning and control problems in semiconductor wafer fabrication facilities. It is the first book that takes a comprehensive look at the role of modeling, analysis, and related information systems for such manufacturing systems. The book provides an operations research- and computer science-based introduction into this important field of semiconductor manufacturing-related research.
With the power and range of modern pulse spectrometers the compass of NMR spec troscopy is now very large for a single book-but we have undertaken this. Our book covers the Periodic Table as multinuclear spectrometers do, and introductory chapters are devoted to the essentials of the NMR experiment and its products. Primary products are chemical shifts (including anisotropies), spin-spin coupling constants, and relaxation times; the ultimate product is a knowledge of content and constitution, dynamic as well as static. Our province is chemical and biochemical rather than physical or technical; only passing reference is made to metallic solids or unstable species, or to practical NMR spectroscopy. Our aim is depth as well as breadth, to explain the fundamental processes, whether of nuclear magnetic shielding, spin-spin coupling, relaxation, or the multiple pulse sequences that have allowed the development of high-resolution studies of solids, multidimensional NMR spectroscopy, techniques for sensitivity enhancement, and so on. This book therefore combines the functions of advanced textbook and reference book. For reasonably comprehensive coverage in a single volume we have sum marized the information in tables and charts, and included all leading references."
An understanding ofthe properties and the handling characteristics of liquids and gases has long been regarded as an essential requirement for most practising engineers. It is therefore not surprising that, over the years, there has been a regular appearance of books dealing with the fundamentals of fluid mechanics, fluid flow, hydraulics and related topics. What is surprising is that there has been no parallel development of the related discipline of Bulk Solids Handling, despite its increasing importance in modern industry across the world. It is only very recently that a structured approach to the teaching, and learning, of the subject has begun to evolve. A reason for the slow emergence of Bulk Solids Handling as an accepted topic of study in academic courses on mechanical, agricultural, chemical, mining and civil engineering is perhaps that the practice is so often taken for granted. Certainly the variety of materials being handled in bulk is almost endless, ranging in size from fine dust to rocks, in value from refuse to gold, and in temperature from deep-frozen peas to near-molten metal.
Sonochemistry is studied primarily by chemists and sonoluminescence mainly by physicists, but a single physical phenomenon - acoustic cavitation - unites the two areas. The physics of cavitation bubble collapse, is relatively well understood by acoustical physicists but remains practically unknown to the chemists. By contrast, the chemistry that gives rise to electromagnetic emissions and the acceleration of chemical reactions is familiar to chemists, but practically unknown to acoustical physicists. It is just this knowledge gap that the present volume addresses. The first section of the book addresses the fundamentals of cavitation, leading to a more extensive discussion of the fundamentals of cavitation bubble dynamics in section two. A section on single bubble sonoluminescence follows. The two following sections address the new scientific discipline of sonochemistry, and the volume concludes with a section giving detailed descriptions of the applications of sonochemistry. The mixture of tutorial lectures and detailed research articles means that the book can serve as an introduction as well as a comprehensive and detailed review of these two interesting and topical subjects.
There is a unity to physics; it is a discipline which provides the most fundamental understanding of the dynamics of matter and energy. To understand anything about a physical system you have to interact with it and one of the best ways to learn something is to use electrons as probes. This book is the result of a meeting, which took place in Magdalene College Cambridge in December 2001. Atomic, nuclear, cluster, soHd state, chemical and even bio- physicists got together to consider scattering electrons to explore matter in all its forms. Theory and experiment were represented in about equal measure. It was meeting marked by the most lively of discussions and the free exchange of ideas. We all learnt a lot. The Editors are grateful to EPSRC through its Collaborative Computational Project program (CCP2), lOPP, the Division of Atomic, Molecular, Optical and Plasma Physics (DAMOPP) and the Atomic Molecular Interactions group (AMIG) of the Institute of Physics for financial support. The smooth running of the meeting was enormously facilitated by the efficiency and helpfulness of the staff of Magdalene College, for which we are extremely grateful. This meeting marked the end for one of us (CTW) of a ten-year period as a fellow of the College and he would like to take this opportunity to thank the fellows and staff for the privilege of working with them.
Originally formed around a set of lectures presented at a NATO Advanced Study Institute (ASI), this book has grown in scope and in aspiration to become organised and presented rather more as a textbook than as a standard collection of proceedings. The lack of a unified reference textbook covering both the science of seasonal to interannual predictions and real-world uses of the forecasts was the main driver for the effort placed into writing an amalgamated introductory book, each chapter of which has been thoroughly peer reviewed. Throughout, our objective has been to present a book accessible to people from diverse disciplines, both scientific and social, interested in this intriguing and fast emerging area.
In the 1980's sonochemistry was considered to be a rather restricted branch of chemistry involving the ways in which ultrasound could improve synthetic procedures, predominantly in heterogeneous systems and particularly for organometallic reactions. Within a few years the subject began to expand into other disciplines including food technology, environmental protection and the extraction of natural materials. Scientific interest grew and led to the formation of the European Society of Sonochemistry in 1990 and the launch of a new journal Ultrasonics Sonochemistry in 1994. The subject continues to develop as an exciting and multi-disciplinary science with the participation of not only chemists but also physicists, engineers and biologists. The resulting cross-fertilisation of ideas has led to the rapid growth of interdisciplinary research and provided an ideal way for young researchers to expand their knowledge and appreciation of the ways in which different sciences can interact. It expands scientific knowledge through an opening of the closed doors that sometimes restrict the more specialist sciences. The journey of exploration in sonochemistry and its expansion into new fields of science and engineering is recounted in "Sonochemistry Evolution and Expansion" written by two pioneers in the field. It is unlike other texts about sonochemistry in that it follows the chronological developments in several very different applications of sonochemistry through the research experiences of the two authors Tim Mason and Mircea Vinatoru. Designed for chemists and chemical engineers Written by two experts and practitioners in the subject Volume 1 covers the historical background and evolution of sonochemistry Volume 2 explains the wider applications and expansion of the subject VOLUME 2 Applications and Developments Volume 2 contains six chapters which detail the developments of sonochemistry in fields which continue to attract considerable research and development interest from academia and industry. The topics range from the important developments in chemical synthesis through food technology and materials processing to therapeutic ultrasound. The authors have made contributions to all of these and so the content is written in a way which should be understandable to readers whose expertise may not necessarily be in the individual topic. Each of the applications and developments described help to illustrate not only the diverse nature of sonochemistry but also the unifying theme of the effects of acoustic cavitation on a wide range of procedures.
Policy-makers are increasingly concerned about the impact of climate variability and change on the health of vulnerable populations. Variations and trends in climatic factors and extreme weather events impact many health outcomes, including malaria, heat stress and undernutrition. Climate Information for Public Health Action is based on the premise that climate knowledge and information can help protect the public from climate-sensitive health risks. With a focus on infectious disease, hydro-meteorological disasters and nutrition, the book explores why, when and how data on the historical, current and future (from days to decades) climate can be incorporated into health decision-making. Created as a collaborative effort between climate and health experts, this book targets a broad technical public health community, alongside development practitioners and policy-makers engaged in climate change adaptation. It may also guide climate experts in the development of climate services tailored to health needs. Written in an accessible, informative style, while maintaining the highest technical and scientific standards, it will also be a valuable resource for students and academics studying and working in the emerging field of environment and health. The Open Access version of this book, available at http://www.tandfebooks.com/doi/view/10.4324/9781315115603, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license."
A learning system can be defined as a system which can adapt its behaviour to become more effective at a particular task or set of tasks. It consists of an architecture with a set of variable parameters and an algorithm. Learning systems are useful in many fields, one of the major areas being in control and system identification. This work covers major aspects of learning systems: system architecture, choice of performance index and methods measuring error. Major learning algorithms are explained, including proofs of convergence. Artificial neural networks, which are an important class of learning systems and have been subject to rapidly increasing popularity, are discussed. Where appropriate, examples have been given to demonstrate the practical use of techniques developed in the text. System identification and control using multi-layer networks and CMAC (Cerebellar Model Articulation Controller) are also presented.
In this bold new study, Andrew J. Mason seeks both to shed light on the key issue of flux in Plato's work, and to show that there is also in Plato a notion of flow that needs to be distinguished from flux. Mason brings out the importance of this hitherto neglected distinction, and proposes on its basis a new way of understanding the development of Plato's thought. The opposition between the 'being' of Forms and the 'becoming' or 'flux' of sensibles has been fundamental to the understanding of Plato from Aristotle to the present day. One key concern of this volume is to clarify which kinds or levels of flux Plato accepts in sensibles. In addition, Mason argues that this traditional approach is unsatisfactory, as it leaves out the important notion of flow. Unlike flux, flow is a kind of motion that does not entail intrinsic change. It is also not restricted to the sensible, but covers motions of soul as well, including the circular motion of nous (intelligence) that is crucial in Plato's later thought, particularly his cosmology. In short, flow is not incompatible with 'being', and in this study Plato's development is presented, largely, as his arrival at this view, in correction of his earlier conflation of flux and flow in establishing the dichotomy between being and becoming. Mason's study offers fresh insights into many dialogues and difficult passages in Plato's oeuvre, and situates Plato's conception and usage of 'flow' and 'flux' in relation to earlier usage in the Greek poetic tradition and the Presocratic thinkers, particularly Heraclitus. The first study of its kind, Flow and Flux uncovers dimensions of Plato's thinking that may reshape the way his philosophy is understood.
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