This is the second updated and extended edition of the successful book on Feynman-Kac theory. It offers a state-of-the-art mathematical account of functional integration methods in the context of self-adjoint operators and semigroups using the concepts and tools of modern stochastic analysis. The first volume concentrates on Feynman-Kac-type formulae and Gibbs measures.
This monograph offers a state-of-the-art mathematical account of functional integration methods in the context of self-adjoint operators and semigroups using the concepts and tools of modern stochastic analysis. These ideas are then applied principally to a rigorous treatment of some fundamental models of quantum field theory. In this self-contained presentation of the material both beginners and experts are addressed, while putting emphasis on the interdisciplinary character of the subject.
This monograph offers a state-of-the-art mathematical account of functional integration methods in the context of self-adjoint operators and semigroups using the concepts and tools of modern stochastic analysis. These ideas are then applied principally to a rigorous treatment of some fundamental models of quantum field theory. In this self-contained presentation of the material both beginners and experts are addressed, while putting emphasis on the interdisciplinary character of the subject.
This is the second updated and extended edition of the successful book on Feynman-Kac theory. It offers a state-of-the-art mathematical account of functional integration methods in the context of self-adjoint operators and semigroups using the concepts and tools of modern stochastic analysis. The first volume concentrates on Feynman-Kac-type formulae and Gibbs measures
Volker Rabens answers the question of how, according to the apostle Paul, the Holy Spirit enables religious-ethical life. In the first part of the book, the author discusses the established view that the Spirit is a material substance which transforms people ontologically by virtue of its physical nature. In order to assess this "Stoic" reading of Paul, the author examines all the passages from the Hebrew Bible, early Judaism, Hellenism and Paul that have been put forward in support of this concept of ethical enabling. He concludes that there is no textual evidence in early Judaism or Paul that the Spirit was conceived as a material substance. Furthermore, none of these or any of the Graeco-Roman writings show that ethical living derives from the transformation of the "substance" of the person that is imbued with a physical Spirit. The second part of the study offers a fresh approach to the ethical work of the Spirit which is based on a relational concept of Paul's theology. Rabens argues that it is primarily through initiating and sustaining an intimate relationship with God the Father, Jesus Christ, and with the community of faith that the Spirit transforms and empowers people for ethical living. The author establishes this thesis on the basis of an exegetical study of a variety of passages from the Pauline corpus. In addition, he demonstrates that Paul lived in a context in which this dynamic of ethical empowering was part of the religious framework of various Jewish groups.
A practice-oriented introduction to phytotherapy. Methodically classified by organic systems and fields of application, it offers a quick insight into dosage, form of application and effects of the most important herbal remedies. Only those herbal remedies that are of pharmacological and clinical efficiency have been considered. The authors are highly experienced in the field of postgraduate medical education and, with this work, present an indispensable reference book for the medical practice.
Faith, Nationalism, and the Future of Liberal Democracy highlights the use of religious identity to fuel the rise of illiberal, nationalist, and populist democracy. In Faith, Nationalism, and the Future of Liberal Democracy, David Elcott, C. Colt Anderson, Tobias Cremer, and Volker Haarmann present a pragmatic and modernist exploration of how religion engages in the public square. Elcott and his co-authors are concerned about the ways religious identity is being used to foster the exclusion of individuals and communities from citizenship, political representation, and a role in determining public policy. They examine the ways religious identity is weaponized to fuel populist revolts against a political, social, and economic order that values democracy in a global and strikingly diverse world. Included is a history and political analysis of religion, politics, and policies in Europe and the United States that foster this illiberal rebellion. The authors explore what constitutes a constructive religious voice in the political arena, even in nurturing patriotism and democracy, and what undermines and threatens liberal democracies. To lay the groundwork for a religious response, the book offers chapters showing how Catholicism, Protestantism, and Judaism can nourish liberal democracy. The authors encourage people of faith to promote foundational support for the institutions and values of the democratic enterprise from within their own religious traditions and to stand against the hostility and cruelty that historically have resulted when religious zealotry and state power combine. Faith, Nationalism, and the Future of Liberal Democracy is intended for readers who value democracy and are concerned about growing threats to it, and especially for people of faith and religious leaders, as well as for scholars of political science, religion, and democracy.
By mid-century, renewable energy must cover all of our energy supply if we are to phase out nuclear and successfully stop climate change. Now updated and expanded, the 2nd edition of this textbook covers the full range of renewable energy systems and now also includes such current trends as solar power storage, power-to-gas technologies, and the technology paths needed for a successful and complete energy transition. The topics are treated in a holistic manner, bringing together maths, engineering, climate studies and economics, and enabling readers to gain a broad understanding of renewable energy technologies and their potential.Numerous examples are provided for calculations, and graphics help visualize the various technologies and mathematical methodologies. Understanding Renewable Energy Systems is an ideal companion for students of renewable energy at universities or technical colleges on courses such as renewable energy, electrical engineering, engineering technology, physics, process engineering, building engineering, environment, applied mechanics and mechanical engineering, as well as scientists and engineers in research and industry.
This dazzling introductory textbook encompasses the full range of today's important renewable energy technologies. Solar thermal, photovoltaic, wind, hydro, biomass and geothermal energy receive balanced treatment with one exciting and informative chapter devoted to each. As well as a complete overview of these state-of-the-art technologies, the chapters provide: clear analysis on their development potentials; an evaluation of the economic aspects involved; concrete guidance for practical implementation; how to reduce your own energy waste. If we do not act now to stop climate change, the consequences will be catastrophic. The current world situation is demonstrated here with the aid of full-colour figures and photographs, data diagrams and simple calculations and results. A multiplicity of impressive examples from countries across the globe show international ‘alternative’ energy in action. With its easy-to-read approach, this is an essential textbook for students on renewable energy courses, also environment and sustainability courses. Planners, operators, financers and consultants will find this an excellent manual for planning and realizing climate protection. Furthermore, this book makes great background reading for energy workers, designers, politicians and journalists, and anyone who is interested in the topic of climate change. Looking for further study? Visit the complimentary website; it hosts many useful related internet sites: www.wiley.com/go/quaschning_renewable
The Army Materials and Mechanics Research Center of Water town, Massachusetts in cooperation with the Materials Science Group of the Department of Chemical Engineering and Materials Science of Syracuse University has conducted the Sagamore Army Materials Research Conference since 1954. The main purpose of these conferences has been to gather together over 150 scientists and engineers from academic institutions, industry and government who are uniquely qualified to explore in depth a subject of importance to the Department of Defense, the Army and the scientific community. This volume NONDESTRUCTIVE EVALUATION OF MATERIALS, addresses the areas of x-ray, ultrasonics and other methods of nondestructive testing. We wish to acknowledge the dedicated assistance of Joseph M. Bernier of the Army Materials and Mechanics Research Center and Helen Brown DeMascio of Syracuse University throughout the stages of the conference planning and finally the publication of this book. Their help is deeply appreciated. Syracuse University Syracuse, New York The Editors Contents SESSION I X-RAY S. Heissman, Moderator H. K. Herglotz, Moderator 1. Overview of X-Ray Diffraction Methods for Nondestructive Testing • • • • • • • ••• 1 L. V. Azaroff 2. Detection of Fatigue Damage by X-Rays 21 S. Taira and K. Kamachi 3. A Historical Example of Fatigue Damage • • • • • • • 55 H. K. Herglotz 4. The Application of X-Ray Topography to Materials Science . . . . . . . . . . . . . . . . . . . . 69 S. Weissman 5.
Provides clear analysis on the development potentials and practical realization of solar, wind, wave, and geothermal renewable energy technologies Presented as a clear introduction to the topics of climate protection and renewable energy, this book demonstrates the correlations between use of energy, energy prices, and climate change. It evaluates and analyzes the current world situation (drawing on examples given from countries across the globe), whilst also giving essential and practical guidance on ‘personal’ climate protection. Each major type of renewable energy system is covered in detail and with an easy-to-read approach, making it an ideal manual for planning and realizing climate protection and renewable energy systems, while also being an informative textbook for those studying renewable energy and environment and sustainability courses. Renewable Energy and Climate Change, 2nd Edition starts by examining our hunger for energy—how much we need, how much we use, and how much it is costing us. It then looks at the state of climate change today and the causes. Following that, the book focuses on how we waste and save energy. The remaining chapters look at the many alternative sources of energy generation, like photovoltaics, solar thermal systems and power plants, wind power systems, hydropower plants, and geothermal power. The book also delves into current state of biomass energy and the hydrogen and fuel cell industry. It finishes with a look at the future of the subject, shining a light on some positive examples of sustainable energy. Clear overview on each state-of-the-art technology in alternative energy production Presents correlations between use of energy and energy prices, and climate change Provides guidance on what the reader can do to reduce their own energy waste Full-color figures and photographs throughout, data diagrams and simple calculations and results, and text boxes that highlight important information International examples of renewable energy in action Renewable Energy and Climate Change, 2nd Edition is an excellent text for students and professionals studying or working on renewable energy, or environmental and sustainability alternatives. It will also benefit planners, operators, financers, and consultants in those fields.
Nuclear and Radiochemistry The leading resource for anyone looking for an accessible and authoritative introduction to nuclear and radiochemistry In the newly revised Fourth Edition of Nuclear and Radiochemistry: Fundamentals and Applications, distinguished chemist Jens-Volker Kratz delivers a two-volume handbook that has become the gold standard in teaching and learning nuclear and radiochemistry. The books cover the theory and fundamentals of the subject before moving on the technical side of nuclear chemistry, with coverage of nuclear energy, nuclear reactors, and radionuclides in the life sciences. This latest edition discusses the details and impact of the Chernobyl and Fukushima nuclear disasters, as well as new research facilities, including FAIR and HIM. It also incorporates new methods for target preparation and new processes for nuclear fuel recycling, like EURO-GANEX. Finally, the volumes extensively cover environmental technological advances and the effects of radioactivity on the environment. Readers will also find: An accessible and thorough introduction to the fundamental concepts of nuclear physics and chemistry, including atomic processes, classical mechanics, relativistic mechanics, and the Heisenberg Uncertainty Principle Comprehensive explorations of radioactivity in nature, radioelements, radioisotopes and their atomic masses, and other physical properties of nuclei Practical discussions of the nuclear force, nuclear structure, decay modes, radioactive decay kinetics, and nuclear radiation In-depth examinations of the statistical considerations relevant to radioactivity measurements Written for practicing nuclear chemists and atomic physicists, Nuclear and Radiochemistry: Fundamentals and Applications is also an indispensable resource for nuclear physicians, power engineers, and professionals working in the nuclear industry.
Innovative research solutions increasingly require deep engagement with practitioners to manage the complex problems they are attempting to solve. This often project-based research is equipped with finite resources over a limited period without much thought into future-proofing the practice. These projects must face questions of what happens when a product comes to an end and whether there are any lasting positive effects once the IT systems are no longer being actively developed. From a computing perspective, the challenge is to design IT artifacts that contribute to improving the user's work and everyday life in a sustainable way, thereby also contributing to social and ecological sustainability. Future-Proofing: Making Practice-Based IT Design Sustainable documents the experiences made by several leading research groups in Europe, North America, and South Africa. It describes their efforts to achieve sustainable design results, the difficulties that barred the way but also the strategies they adopted to achieve the goal of sustainability. The analysis of these cases has inspired thinking about how to more systematically address and possibly overcome the impediments to sustainability. This book develops a strong future-oriented perspective that conceptualizes sustainability as a complex and highly variegated issue and formulates insights and recommendations with a view to help researchers to better design for sustainability.
Micro process engineering is approaching both academia and industry. With the provision of micro devices, systems and whole plants by commercial suppliers, one main barrier for using these units has been eliminated. This book focuses on processes and their plants rather than on devices: what is 'before', 'behind' and 'around' micro device fabrication - and gives a comprehensive and detailed overview on the micro-reactor plants and three topic-class applications which are mixing, fuel processing, and catalyst screening. Thus, the book reflects the current level of development from 'micro-reactor design' to 'micro-reactor process design'.
As part of its contribution to the 1979 United Nations Conference on Science and Technology for Development IUNCSTD) the United Nations Institute for Training and Research jUNITAR) organized an informal research group to assess various aspects of applying science and technology to development through the United Nations system. This research group was constituted in early 1978 at the initiative of Dr. Robert S. Jordan, former Director of Research at UNITAR, and was headed by Professor Volker Rittberger, a UNITAR Special Fellow. One of the activities of this group has been the production of a series of working papers on science and technology. These papers seek to provide preliminary analyses rather than definitive conclusions. Their purpose is to facilitate the access of others to the ongoing work of the group and to stimulate critical comments and reactions leading to further improvement of this work.
Rowing Science explains and applies up-to-date scientific research across all aspects of the sport to optimize rowing skills and performance, making it essential reading for serious rowers, coaches, and rowing scientists.
Starting out from the fundamentals, this book covers the chemistry and physics of ceramic materials, as well as their behavior and resulting properties, including bio-inspired approaches and microstructural aspects. As such, it presents production methods as well as the scientific background, teaching all important mathematical methods: classical, quantum-mechanical, phenomenological, and model-based approaches. Further emphasis is laid upon the current state of the art and possible developments and challenges within the near future.
Awarded one of BookAuthority's best new Particle Physics books in 2019! Hands-On Accelerator Physics Using MATLAB® provides an introduction into the design and operational issues of a wide range of particle accelerators, from ion-implanters to the Large Hadron Collider at CERN. Many aspects from the design of beam optical systems and magnets, to the subsystems for acceleration, beam diagnostics, and vacuum are covered. Beam dynamics topics ranging from the beam-beam interaction to free-electron lasers are discussed. Theoretical concepts and the design of key components are explained with the help of MATLAB® code. Practical topics, such as beam size measurements, magnet construction and measurements, and radio-frequency measurements are explored in student labs without requiring access to an accelerator. This unique approach provides a look at what goes on 'under the hood' inside modern accelerators and presents readers with the tools to perform their independent investigations on the computer or in student labs. This book will be of interest to graduate students, postgraduate researchers studying accelerator physics, as well as engineers entering the field. Features: Provides insights into both synchrotron light sources and colliders Discusses technical subsystems, including magnets, radio-frequency engineering, instrumentation and diagnostics, correction of imperfections, control, and cryogenics Accompanied by MATLAB® code, including a 3D-modeler to visualize the accelerators, and additional appendices which are available on the CRC Press website
This volume provides readers with a detailed introduction to the amenability of Banach algebras and locally compact groups. By encompassing important foundational material, contemporary research, and recent advancements, this monograph offers a state-of-the-art reference. It will appeal to anyone interested in questions of amenability, including those familiar with the author’s previous volume Lectures on Amenability. Cornerstone topics are covered first: namely, the theory of amenability, its historical context, and key properties of amenable groups. This introduction leads to the amenability of Banach algebras, which is the main focus of the book. Dual Banach algebras are given an in-depth exploration, as are Banach spaces, Banach homological algebra, and more. By covering amenability’s many applications, the author offers a simultaneously expansive and detailed treatment. Additionally, there are numerous exercises and notes at the end of every chapter that further elaborate on the chapter’s contents. Because it covers both the basics and cutting edge research, Amenable Banach Algebras will be indispensable to both graduate students and researchers working in functional analysis, harmonic analysis, topological groups, and Banach algebras. Instructors seeking to design an advanced course around this subject will appreciate the student-friendly elements; a prerequisite of functional analysis, abstract harmonic analysis, and Banach algebra theory is assumed.
The third edition of this classic in the field is completely updated and revised with approximately 30% new content so as to include the latest developments. The handbook and ready reference comprehensively covers nuclear and radiochemistry in a well-structured and readily accessible manner, dealing with the theory and fundamentals in the first half, followed by chapters devoted to such specific topics as nuclear energy and reactors, radiotracers, and radionuclides in the life sciences. The result is a valuable resource for both newcomers as well as established scientists in the field.
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