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Architectural patronage was crucial for the thinking of Aby Warburg and his circle. In Hamburg the purpose-designed Kulturwissenschaftliche Bibliothek Warburg, completed in 1926, organized Warburg's remarkable library. From 1927 Warburg developed ideas about orientation in the radical transformation of a disused water tower into the Hamburg Planetarium. After the Warburg Institute transferred to London in 1933 this pattern of seminal architectural commissioning continued, including projects designed by the avant-garde practice Tecton during the 1930s, and culminating in the construction of the library's present home at Woburn Square, Bloomsbury in 1958. Warburg Models: Buildings as Bilderfahrzeuge follows this history, using archive photographs, architectural drawings and a series of architectural models to show how the Warburg scholars projected a connection between their own physical occupancy of architectural space and their shared ideas about intellectual order, cultural survival, and memory. MARI LENDING and TIM ANSTEY are both professors of architectural history at the Oslo School of Architecture and Design. Their continuing archive-based seminar on the relationship between the Warburg Institute and architecture has developed into an exhibition and a book, not least because of the skilled participation of their model-building students.
A study of German culture between the two wars, this book brilliantly traces the rise of the artistic, literary, and musical culture that bloomed ever so briefly in the 1920s amid the chaos of Germany's tenuous post-World War I democracy, and crashed violently in the wake of Hitler's rise to power. Includes a new Introduction. 16 illustrations.
Conjugated polymer composites with high dielectric constants are being developed by the electronics industry in response to the need for power-grounded decoupling to secure the integrity of high-speed signals and to reduce electromagnetic interference. Electrically conducting polymers are materials that simultaneously possess the physical and chemical properties of organic polymers and the electronic characteristics of metals. Multifunctional micro- and nanostructures of conjugated polymers, such as of pyrrole, have received great attention in recent years because they can polymerize easily and have high conductivity and good thermal stability. They, however, have some disadvantages such as brittleness and hard processability, which can be overcome by developing their nanocomposites. Nanofiber materials with different dielectric properties can be made from conjugated polymer composites and used in the electronics industry, in sensors and batteries, for electrical stimulation to enhance nerve-regeneration process, and for constructing scaffolds for nerve tissue engineering. Electrospinning is a versatile technique that is used to produce ultrathin continuous fibers with high surface-to-volume and aspect ratios from a variety of materials, including polymers, composites, and ceramics. Conductive materials in fibrillar shape may be advantageous compared with films because of their inherent properties such as anisotropy, high surface area, and mechanical strength. They are of particular interest in electroactive composites as they can be efficiently distributed in an insulating polymer matrix to improve both electrical and mechanical properties. Combination of electrical properties with good mechanical performance is of particular interest in electroactive polymer technology. This book covers the general aspects of electrospinning and discusses the fundamental concepts that can be used to produce nanofibers with the help of mathematical models and equations. It also details the methods through which different polymeric structures can be included in conjugated polymers during electrospinning to form composites or blends of conjugated polymer nanofibers.
This book is a study both of anachronism in antiquity and of anachronism as a vehicle for understanding antiquity. It explores the post-classical origins and changing meanings of the term 'anachronism' as well as the presence of anachronism in all its forms in classical literature, criticism and material objects. Contrary to the position taken by many modern philosophers of history, this book argues that classical antiquity had a rich and varied understanding of historical difference, which is reflected in sophisticated notions of anachronism. This central hypothesis is tested by an examination of attitudes to temporal errors in ancient literary texts and chronological writings and by analysing notions of anachronistic survival and multitemporality. Rather than seeing a sense of anachronism as something that separates modernity from antiquity, the book suggests that in both ancient writings and their modern receptions chronological rupture can be used as a way of creating a dialogue between past and present. With a selection of case-studies and theoretical discussions presented in a manner suitable for scholars and students both of classical antiquity and of modern history, anthropology, and visual culture, the book's ambition is to offer a new conceptual map of antiquity through the notion of anachronism.
In this book a distinguished scientist-historian offers a critical account of how biochemistry and molecular biology emerged as major scientific disciplines from the interplay of chemical and biological ideas and practice. Joseph S. Fruton traces the historical development of these disciplines from antiquity to the present time, examines their institutional settings, and discusses their impact on medical, pharmaceutical, and agricultural practice.
The study of the architectural discipline suffers from an increasing disconnect between its teaching and its professional practice. In this edited collection, 18 architectural voices address this disconnect by reflecting on the ways in which they exercise the architectural discipline in three ways: research, teaching, and practice. This book argues that the totality of activities encompassed by the architectural profession can be best fulfilled when reconsidering the critical interactions between these three fields in the everyday exercise of the profession. Split into three parts, "Architecture as Research," Architecture as Pedagogy," and "Architecture as Practice," each section focuses on one of these three dimensions while establishing continuity with the other two. In doing so, the book not only favors a more fulfilling interaction between academia and the profession but also reinforces the implementation of design theory and research in everyday teaching and practice. The contributions come from 18 teams of architects operating from geographically diverse locations, including Pezo von Ellrichshausen in Chile, Kengo Kuma & Associates in Japan, Barclay & Crousse in Peru, Shift in Iran, Heinrich Wolff in South Africa, and People’s Architecture Office in China, opening the design conversation to larger contexts and framing continuity and inclusion in time. Written for students, instructors, and practitioners alike, the inspiring reflections in this volume encourage readers to grow as architects and play an instrumental role in transforming the built environment.
An analysis of two heuristic strategies for the development of mechanistic models, illustrated with historical examples from the life sciences. In Discovering Complexity, William Bechtel and Robert Richardson examine two heuristics that guided the development of mechanistic models in the life sciences: decomposition and localization. Drawing on historical cases from disciplines including cell biology, cognitive neuroscience, and genetics, they identify a number of "choice points" that life scientists confront in developing mechanistic explanations and show how different choices result in divergent explanatory models. Describing decomposition as the attempt to differentiate functional and structural components of a system and localization as the assignment of responsibility for specific functions to specific structures, Bechtel and Richardson examine the usefulness of these heuristics as well as their fallibility—the sometimes false assumption underlying them that nature is significantly decomposable and hierarchically organized. When Discovering Complexity was originally published in 1993, few philosophers of science perceived the centrality of seeking mechanisms to explain phenomena in biology, relying instead on the model of nomological explanation advanced by the logical positivists (a model Bechtel and Richardson found to be utterly inapplicable to the examples from the life sciences in their study). Since then, mechanism and mechanistic explanation have become widely discussed. In a substantive new introduction to this MIT Press edition of their book, Bechtel and Richardson examine both philosophical and scientific developments in research on mechanistic models since 1993.
Recounting the compelling story of a scientific discovery that took more than a century to complete, this trail-blazing monograph focuses on methodological issues and is the first to delve into this subject. This book charts how the biochemical and biophysical mechanisms of photosynthesis were teased out by succeeding generations of scientists, and the author highlights the reconstruction of the heuristics of modelling the mechanism—analyzed at both individual and collective levels. Photosynthesis makes for an instructive example. The first tentative ideas were developed by organic chemists around 1840, while by 1960 an elaborate proposal at a molecular level, for both light and dark reactions, was established. The latter is still assumed to be basically correct today. The author makes a persuasive case for a historically informed philosophy of science, especially regarding methodology, and advocates a history of science whose narrative deploys philosophical approaches and categories. She shows how scientists’ attempts to formulate, justify, modify, confirm or criticize their models are best interpreted as series of coordinated research actions, dependent on a network of super- and subordinated epistemic goals, and guided by recurrent heuristic strategies. With dedicated chapters on key figures such as Otto Warburg, who borrowed epistemic fundamentals from other disciplines to facilitate his own work on photosynthesis, and on more general topics relating to the development of the field after Warburg, this new work is both a philosophical reflection on the nature of scientific enquiry and a detailed history of the processes behind one of science’s most important discoveries.
Modern Portfolio Theory explores how risk averse investors construct portfolios in order to optimize market risk against expected returns. The theory quantifies the benefits of diversification.Modern Portfolio Theory provides a broad context for understanding the interactions of systematic risk and reward. It has profoundly shaped how institutional portfolios are managed, and has motivated the use of passive investment management techniques, and the mathematics of MPT is used extensively in financial risk management.Advances in Portfolio Construction and Implementation offers practical guidance in addition to the theory, and is therefore ideal for Risk Mangers, Actuaries, Investment Managers, and Consultants worldwide. Issues are covered from a global perspective and all the recent developments of financial risk management are presented. Although not designed as an academic text, it should be useful to graduate students in finance.*Provides practical guidance on financial risk management*Covers the latest developments in investment portfolio construction*Full coverage of the latest cutting edge research on measuring portfolio risk, alternatives to mean variance analysis, expected returns forecasting, the construction of global portfolios and hedge portfolios (funds)
This book features papers written by renowned international scholars that analyze the interdependence of art, phenomenology, and social science. The papers show how the analysis of the production as well as the perception and interpretation of art work needs to take into consideration the subjective viewpoint of the artist in addition to that of the interpreter. Phenomenology allows a description of the subjectively centered life-world of the individual actor—artist or interpreter—and the objective structures of literature, music, and the aesthetic domain in general. The perspective of social science serves to reconstruct the socio-historical structure involved in the creation and reception of the art work. The authors concentrate on this specific theoretical focus which combines both phenomenology and social science and offers an innovative framework for the analysis of works of art from the fields of literature, music, visual arts, photography, and film. Some of the contributions present creative interpretations of a variety of distinct art works in addition to the realization of theoretical reflections on the interdependence of arts, phenomenology, and social science. This book features papers that were presented at the international and interdisciplinary conference Phenomenology, Social Sciences, and the Arts, held at the University of Konstanz, May 2009, in commemoration of philosopher and social scientist Alfred Schutz, the developer of phenomenologically oriented sociology. It will appeal to researchers, scholars, and students in phenomenology, social sciences, art theory, and the arts. ​