This volume presents a collection of courses introducing the reader to the recent progress with attention being paid to laying solid grounds and developing various basic tools. It presents new results on phase transitions for gradient lattice models.
This volume presents a collection of courses introducing the reader to the recent progress with attention being paid to laying solid grounds and developing various basic tools. It presents new results on phase transitions for gradient lattice models.
This book covers aspects of multiphase flow and heat transfer during phase change processes, focusing on boiling and condensation in microscale channels. The authors present up-to-date predictive methods for flow pattern, void fraction, pressure drop, heat transfer coefficient and critical heat flux, pointing out the range of operational conditions that each method is valid. The first four chapters are dedicated on the motivation to study multiphase flow and heat transfer during phase change process, and the three last chapters are focused on the analysis of heat transfer process during boiling and condensation. During the description of the models and predictive methods, the trends are discussed and compared with experimental findings.
This important book covers topics that are of major interest to the high energy physics community, including the most recent results from flavour factories, dark matter and neutrino physics. In addition, it considers future high energy machines.
This major overview of how classical texts were preserved across millennia addresses both the process of transmission and the issue of reception, as well as the key reference works and online professional tools for studying literary transmission.
A sweeping history of premodern architecture told through the material of stone Spanning almost five millennia, Painting in Stone tells a new history of premodern architecture through the material of precious stone. Lavishly illustrated examples include the synthetic gems used to simulate Sumerian and Egyptian heavens; the marble temples and mansions of Greece and Rome; the painted palaces and polychrome marble chapels of early modern Italy; and the multimedia revival in 19th-century England. Poetry, the lens for understanding costly marbles as an artistic medium, summoned a spectrum of imaginative associations and responses, from princes and patriarchs to the populace. Three salient themes sustained this “lithic imagination”: marbles as images of their own elemental substance according to premodern concepts of matter and geology; the perceived indwelling of astral light in earthly stones; and the enduring belief that colored marbles exhibited a form of natural—or divine—painting, thanks to their vivacious veining, rainbow palette, and chance images.
The main novelty of the Fourth Industrial Revolution is the entry of robots and Artificial Intelligence into the production process. This phenomenon could potentially generate high levels of unemployment, or even full unemployment, and therefore calls for innovative public policies. This book adopts an agnostic position on the size of the future impact of technological progress on employment but proposes a thought experiment built on a full unemployment scenario, which focuses on the consequences that these policies might have for people’s well-being, with particular reference to the provision of a universal Basic Income (UBI). Relying on some of the principles and models of Behavioral and Happiness Economics, it is argued that implementing a UBI that does not change over time may increase well-being inequality. A policy mix that combines a rising basic income with other measures is therefore recommended. This book marks a significant contribution to the literature on economic policy, labor economics, the economics of well-being and happiness, and behavioral economics.
Structural control represents a high technology proposal for civil engineering innovation. This book collects the invited papers presented at the 3rd International Workshop on Structural Control. The geographical coverage and the high quality of the invited speaker's contributions make the book a unique update in the areas of intelligent structures, structural control and smart materials for civil and infrastructure engineers. Contents: An Identification Algorithm for Feedback Active Control (N D Anh); Application of Control Techniques to Masonry and Monumental Constructions (A Baratta et al.); Monitoring of Infrastructures in the Marine Environment (A Del Grosso); Health Monitoring and Optimum Maintenance Programs for Structures in Seismic Zones (L Esteva & E Heredia-Zavoni); Outline of Safety Evaluation of Structural Response-Control Buildings and Smart Structural Systems as Future Trends (K Yoshikazu & T Hiroyuki); Recent Developments in Smart Structures Research in India (S Narayanan & V Balamurugan); Perspective of Application of Active Damping of Cable Structures (A Preumont & F Bossens); Parametric and Nonparametric Adaptive Identification of Nonlinear Structural Systems (A W Smyth et al.); Active Control Requirements in Railway Projects (H Wenzel); and other papers. Readership: Civil engineers and scientists working in the areas of intelligent systems and smart materials.
The almost invisible images of a hitherto unknown painter called Eusebius, who worked in San Vitale Ravenna and in Vivarium, are a gallery of portraits of his famous contemporaries such as Theodoric, Vitiges, Amalasunta and a visual commentary of Justinian's tyrannical behaviour. Living between two ages, without belonging to either, this solitary man represents the fullest embodiment of a type of cultural "hybridisation" that is well attested throughout history. Eusebius is a spiritual brother of those "hybrid" artists, who have left extraordinary examples of "grotesques" populated by fantastic beings. After having embodied for so long the unbiased tolerance which had been the core of his own life and those of his companions in Ravenna: that mixture of confidentiality, intelligence, pointed irony, fantasy, and – why not? – touch of madness which had helped him to navigate through the troubled waters of his age, always leaving at the margins the demons who haunted him.
Hepatitis E (HEV) is a viral infectious disease that infects humans and domestic, wild, and synanthropic animals alike. In developing countries, the disease often presents as an epidemic, transmitted primarily through the fecal-oral route. In recent years, sporadic cases have also been documented in industrial countries, including Europe. The identification and characterization of animal strains of HEV from pigs, wild boar, and deer, and the demonstrated ability of cross-species infection by these animal strains raise potential public health concerns for foodborne and zoonotic transmission of the virus. This Brief will provide a thorough overview of HEV. It will discuss the epidemiology and pathogenesis of the virus in both humans and animals, review detection methods, and provide methods for its control and prevention.
The aim of this monograph is to describe Greek mathematics as a literary product, studying its style from a logico-syntactic point of view and setting parallels with logical and grammatical doctrines developed in antiquity. In this way, major philosophical themes such as the expression of mathematical generality and the selection of criteria of validity for arguments can be treated without anachronism. Thus, the book is of interest for both historians of ancient philosophy and specialists in Ancient Greek, in addition to historians of mathematics. This volume is divided into five parts, ordered in decreasing size of the linguistic units involved. The first part describes the three stylistic codes of Greek mathematics; the second expounds in detail the mechanism of "validation"; the third deals with the status of mathematical objects and the problem of mathematical generality; the fourth analyzes the main features of the "deductive machine," i.e. the suprasentential logical system dictated by the traditional division of a mathematical proposition into enunciation, setting-out, construction, and proof; and the fifth deals with the sentential logical system of a mathematical proposition, with special emphasis on quantification, modalities, and connectors. A number of complementary appendices are included as well.
This volume contains topical papers covering the various aspects of instrumentation in high energy physics. The subjects of the contributions, all previously unpublished, have been chosen to provide an overview of the fundamental processes and of the technological problems encountered in detecting, tracking and identifying charged and neutral particles in modern particle physics experiments.Each contribution offers a concise but complete description of the state-of-the-art regarding the subject, and is addressed to post-doctoral and research staff readers; it will also be found useful as a teaching aid for students and participants in specialized schools and workshops on intermediate and high energy experimental physics.
Discover the utility of four popular electromagnetic geophysical techniques In GeoRadar, FDEM, TDEM, and AEM Methods, accomplished researchers Fabio Giannino and Giovanni Leucci deliver an in-depth exploration of the theory and application of four different electromagnetic geophysical techniques: ground penetrating radar, the frequency domain electromagnetic method, the time domain electromagnetic method, and the airborne electromagnetic method. The authors offer a full description of each technique as they relate to the economics, planning, and logistics of deploying each of them on-site. The book also discusses the potential output of each method and how it can be combined with other sources of below- and above-ground information to create a digitized common point cloud containing a wide variety of data. Giannino and Leucci rely on 25 years of professional experience in over 40 countries around the world to provide readers with a fulsome description of the optimal use of GPR, FDEM, TDEM, and AEM, demonstrating their flexibility and applicability to a wide variety of use cases. Readers will also benefit from the inclusion of: A thorough introduction to electromagnetic theory, including the operative principles and theory of ground penetrating radar (GPR) and the frequency domain electromagnetic method (FDEM) An exploration of hardware architecture and surveying, including GPR, FDEM, time domain electromagnetic method (TDEM), and airborne electromagnetic (AEM) surveying A collection of case studies, including a multiple-geophysical archaeological GPR survey in Turkey and a UXO search in a building area in Italy using FDEM /li> Discussions of planning and mobilizing a campaign, the shipment and clearance of survey equipment, and managing the operative aspects of field activity Perfect for forensic and archaeological geophysicists, GeoRadar, FDEM, TDEM, and AEM Methods will also earn a place in the libraries of anyone seeking a one-stop reference for the planning and deployment of GDR, FDEM, TDEM, and AEM surveying techniques.
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