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Interfaces are present in most fluid mechanics problems. They not only denote phase separations and boundary conditions, but also thin flames and discontinuity waves.<i> Fluid Mechanics at Interfaces 1</i> focuses on the science of interfaces, in particular, using various scientific methods of analysis relating to space, speed and time. Our investigation takes us from the microscopic or small scale (starting with molecular and nanoscopic scales) to the macroscopic (including meso and interstellar scales), and also explores the laws of interfaces (classical mechanics, quantum mechanics and relativistic mechanics).<br /><br />Chapter 1 examines the questions raised by modeling interfaces in the presence of one or more fluid phases. Chapter 2 discusses the action of turbulence in liquid–vapor flows that contain both small, dispersed bubbles as well as large bubbles, with heat exchanges at the interfaces. In addition, a new model is presented, using large eddy simulation (LES). Chapter 3 studies an original method for calculating the drag force and thermal transfers in flows around networks of spherical particles, while Chapter 4 focuses on the relationships between interfaces and critical fluids.<br /><br />Chapter 5 examines shearing, which causes anomalies in the Brownian motion of particles in strongly fluctuating near-critical mixtures, and Chapter 6 introduces basic concepts related to combustion interfaces, raising the question of the combustion of solids, before ending with a brief presentation of the Rankine–Hugoniot theory and a historical overview of the research carried out in the field of combustion.

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Emergency Medicine Simulation Workbook provides medical educators with clear and systematic guidance on incorporating medical simulation into their curriculum. Now in its second edition, this invaluable workbook helps those tasked with training emergency physicians, nurses, and technicians deliver the highest quality training and achieve optimal results. Chapters written by a team of expert authors explain how to use advanced simulation technology to realistically portray clinical scenarios without any risk to real patients. Fully annotated cases cover key topics including cardiovascular, thoracic and respiratory emergencies, trauma, toxicologic and infectious emergencies, and more. Throughout the text, practical “tips and tricks" accompany case images and patient data to help educators easily deploy simulation-based learning and tailor their curriculum for novice and advanced students alike. This workbook also: Helps medical educators train students in diverse settings where it is impractical to work directly with patients Highlights the unique benefits of integrating medical simulation in diverse, acute, and emergency care training scenarios Features numerous clinical cases that cover the full spectrum of emergency medicine pathology Includes access to a companion website with patient histories, video clips, downloadable imaging and laboratory results in PowerPoint format, and additional resourcesAn indispensable tool designed to make simulation more accessible, Emergency Medicine Simulation Workbook remains a must-have guide for all medical educators in the field.

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Interfaces are present in most fluid mechanics problems. They not only denote phase separations and boundary conditions, but also thin flames and discontinuity waves. <i>Fluid Mechanics at Interfaces 2</i> examines cases that involve one-dimensional or bi-dimensional manifolds, not only in gaseous and liquid physical states but also in subcritical fluids and in single- and multi-phase systems that may be pure or mixed.<br /><br />Chapter 1 addresses certain aspects of turbulence in discrete mechanics, briefly describing the physical model associated with discrete primal and dual geometric topologies before focusing on channel flow simulations at turbulence-inducing Reynolds numbers. Chapter 2 centers on atomization in an accelerating domain. In one case, an initial Kelvin–Helmholtz instability generates an acceleration field, in turn creating a Rayleigh–Taylor instability which ultimately determines the size of the droplets formed. Chapter 3 explores numerical studies of pipes with sudden contraction using OpenFOAM, and focuses on modeling that will be useful for engines and automobiles.<br /><br />Chapters 4 and 5 study the evaporation of droplets that are subject to high-frequency perturbations, a possible cause of instabilities in injection engines. The Heidmann model, which replaces the droplets in motion in a combustion chamber with a single continuously-fed droplet, is made more complex by considering the finite conduction heat transfer phenomenon. Finally, Chapter 6 is devoted to a study of the rotor blade surface of a Savonius wind turbine, considering both a non-stationary and a three-dimensional flow.

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NONLINEAR FILTERS Discover the utility of using deep learning and (deep) reinforcement learning in deriving filtering algorithms with this insightful and powerful new resource Nonlinear Filters: Theory and Applications delivers an insightful view on state and parameter estimation by merging ideas from control theory, statistical signal processing, and machine learning. Taking an algorithmic approach, the book covers both classic and machine learningbased filtering algorithms. Readers of Nonlinear Filters will greatly benefit from the wide spectrum of presented topics including stability, robustness, computability, and algorithmic sufficiency. Readers will also enjoy: Organization that allows the book to act as a stand-alone, self-contained reference A thorough exploration of the notion of observability, nonlinear observers, and the theory of optimal nonlinear filtering that bridges the gap between different science and engineering disciplines A profound account of Bayesian filters including Kalman filter and its variants as well as particle filter A rigorous derivation of the smooth variable structure filter as a predictor-corrector estimator formulated based on a stability theorem, used to confine the estimated states within a neighborhood of their true values A concise tutorial on deep learning and reinforcement learning A detailed expectation of the expectation maximization algorithm and its machine learning-based variants, used for joint state and parameter estimation Guidelines for constructing nonparametric Bayesian models from parametric ones Perfect for researchers, professors, and graduate students in engineering, computer science, applied mathematics, and artificial intelligence, Nonlinear Filters: Theory and Applications will also earn a place in the libraries of those studying or practicing in fields involving pandemic diseases, cybersecurity, information fusion, augmented reality, autonomous driving, urban traffic network, navigation and tracking, robotics, power systems, hybrid technologies, and finance.

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Outlines recent advances in the field of polar organometallic chemistry, particularly in the context of the emergent areas of synergic and cooperative species. Polar Organometallic Reagents provides a critical overview of developments in the field of modern polar organometallic chemistry. With a particular focus on the emergent area of synergic heterometallic reagents, this timely volume describes our attempts to understand recently developed polar organometallics and their application in a range of new directions. Contributions from leading researchers present new synthetic work and discuss recent advances in characterization techniques, synthetic applications, and mechanistic understanding of heterometallic complexes. In-depth chapters provide detailed information on fundamental, structural, and theoretical aspects of polar organometallic chemistry while articulating the need and rationale for the advent of new reagents. Topics include alkali and alkaline earth organometallics, synergy and cooperativity, cationic p-block clusters and other developments in main group catalysis, synthetic trends in alkenyl copper, ate complex and borylmetal chemistry, non-traditional reaction environments, and trends in developing greener processes. Designed to keep readers updated with the latest progress in the field, this much-needed book: Includes an introductory chapter outlining the development of synergic bases and the logic behind their creation Highlights the role of solid-state structural work in elucidating the bonding and reactivity displayed by modern polar organometallics Examines the use of calculations in catalyst design and plotting more sustainable reaction pathways Discusses modern trends in solution techniques that have achieved new insights into the structures of active species Presents striking advances in the ease of handling of polar organometallics and the emergence of main group catalysis Polar Organometallic Reagents is essential reading for researchers in chemical disciplines including synthetic inorganic and coordination chemistry, main group chemistry, organometallic chemistry, organic synthesis and catalysis.

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A singular collection of original essays exploring the varied intersections of motion pictures and public value A Companion to Motion Pictures and Public Value presents a cross-disciplinary investigation of the past, present, and possible future contributions of the moving image to the public good. This unique volume explores the direct and indirect public value developed through motion pictures of different types, genres, and screening sites. Essays by world-renowned scholars from diverse disciplines present original conceptual work, philosophical arguments, historical discussion, empirical research, and specific case studies. Divided into seven thematically organized sections, the Companion identifies the various kinds of values that motion pictures can deliver, amongst them artistic, ethical, environmental, cultural, political, cognitive, and spiritual value. Each section includes an introduction in which the editors outline main themes and highlight connections between individual chapters. Throughout the text, probing essays interrogate the issue of public value as it relates to the cinema and provide insight into how motion pictures play a positive role in human life and society. Featuring original research essays on a pioneering topic, this innovative reference text: Brings together work by expert authors in disciplines such as Philosophy, Political Science, Cultural Studies, Film Studies, Sociology, and Environmental Studies Discusses a variety of institutional landscapes, policy formations, and types and styles of filmmaking Provides wide and inclusive coverage of cinema’s relation to public value in Africa, Asia, China, Europe, the Middle East, and the Americas Explores the role of motion pictures in community formation, nation building, and the construction of good societies Covers new and emerging topics such as cinema-based fields focused on health and wellbeing A Companion to Motion Pictures and Public Value is an ideal textbook for advanced undergraduate and graduate courses in Film, Media, and Cultural Studies, and is a valuable resource for scholars across a variety of disciplines

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WAVE AND CURRENT POWER GENERATION Written by two well-known and respected engineers, this exciting new volume is the most up-to-date and comprehensive text on power generation from waves and water currents available today to engineers, scientists, and students, also covering the latest advances in wind power generation. As the world turns further and further away from fossil fuel energy sources, unconventional and renewable sources of energy, such as power generation from water sources and wind energy, are becoming more and more important. Hydropower has been around for decades, but this book suggests new methods that are more cost-effective and less intrusive to the environment for creating power sources from rivers, the tides, and other sources of water. Written by two experts in the field, it also covers wind energy and how it can be more efficiently harnessed. This groundbreaking new volume deals with modern problems of using wind energy, namely, jet currents in the atmosphere and the energy of water flows of rivers, ocean and sea currents, including those caused by tides. Wind and water-based energy sources form an essential part of the renewable energy solution. The engineering measures discussed in this book prove, for example, that by reducing the rate of dissipation of atmospheric surface low-level currents by only one percent, it is possible to provide all of humanity with energy at rates twice the per capita consumption of the wealthiest countries. Whether for the veteran engineer or the engineering student, this book is a must-have for any library. Wave, Wind and Current Power Generation: Is one of the first books available on wave and current power generation containing information for engineers to use for solving day-to-day problems Assists engineers in rapidly analyzing problems and finding effective design methods and select mechanical specifications Provides methods and proven fundamentals of process design for practical application Helps achieve optimum operations and process conditions and shows how to translate design fundamentals into mechanical equipment specifications Covers not just wave and current power generation, but also has a section on wind power generation and a comprehensive overview of renewable energy in the world today

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