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Fluid Space and Transformational Learning presents a critique of the interlocking questions of ‘school architecture’ and education and attempts to establish a field of questioning that aspectualises and intersects concepts, theories and practices connected with the contemporary school building and the deschooling of learning and of the space within and through which it takes place. Tying together the historicity of architectural theory, criticism and practice and the plural dynamic of social fields and sciences, this book outlines the qualities and modalities of experiential fields of transformational learning. The three qualities of space that are highlighted along the way – activated, polyphonic and playful space – as they emerge (without being instrumentalised) through architecturalised spatial modalities – flexibility, variability, interactivity, taut fluid polyphony, multiplicity, transcendence of boundaries – tend to construct and establish a school environment rich in heretical socio-spatial codes. Meshing cooperative, participatory, intrapsychic and interpsychic dimensions, they invite the factors of learning to a creative, imponderable, transformational disorder and deconstruct dominant conditioned reflexes of a disciplinary, methodical and productive order.
The peaceful use of space flight systems for research and technological devel opments in the context of promoting European and international cooperation represents the essential motivation for the programmes of the European Space Agency (ESA). One of ESA's programmes is dedicated to microgravity research, which is now an established discipline in Europe, with a dedicated group of scientists participating. The Challenger disaster has resulted in a serious dis continuity of flight opportunities in the next few years but the forthcoming International Space Station, new launchers and reentry vehicles are expected to provide ample opportunities for microgravity research in the long term. Meanwhile parabolic aircraft flights, sounding rockets as well as the delayed Shuttle-dependent missions, Spacelab D-2, the IML-missions and EURECA I, will be employed to keep microgravity experimenters reasonably busy in the interim period. To prepare the ground for these activities, both regarding research and experiment facilities, an in-depth analysis of the state of the art is an essential requirement at this time. Such an analysis is presented in this volume. It ad dresses all of the topics that have been identified to be of relevance. Besides a presentation of the fundamental aspects justifying microgravity research, the results of experiments already performed are reviewed and recommendations for future activities are made. Close to fifty European scientists have cooper ated in the preparation of this volume and their dedicated and concerted effort is greatly appreciated.
The world's most renowned researchers in fluid management explain what you should know when providing infusion fluids to surgical patients.
Fluid City traces the transformation of the urban waterfront of Melbourne, the re-vitalization of the Yarra River waterfront, Melbourne Docklands and Port Philip Bay. As the financial and industrial centre of Australia, in the late nineteenth century, Melbourne developed a new world exuberance. Yet the twentieth century saw Melbourne suffering from a declining industrial and economic base. The city in the 1980s was de-industrialising, and the re-facing of the city to the water was a key urban strategy of the 1980s and 90s and a catalyst for economic transformation. This book bridges significant gaps between different discourses about the city and to challenge singular ways of viewing the city.
The open access publication of this book has been published with the support of the Swiss National Science Foundation. In Shrines in a Fluid Space: The Shaping of New Holy Sites in the Ionian Islands, the Peloponnese and Crete under Venetian Rule (14th-16th Centuries), Argyri Dermitzaki reconstructs the devotional experiences within the Greek realm of the Venetian Stato da Mar of Western European pilgrims sailing to Jerusalem. The author traces the evolution of the various forms of cultic sites and the perception of them as nodes of a wider network of the pilgrims’ ‘holy topography’. She scrutinises travelogues in conjunction with archaeological, visual and historical evidence and offers a study of the cultic phenomena and sites invested with exceptional meaning at the main ports of call of the pilgrims’ galleys in the Ionian Sea, the Peloponnese and Crete.
Equine Fluid Therapy is the first reference to draw equine-specific fluid therapy information together into a single, comprehensive resource. Offering current information unique to horses on the research and practice of fluid, electrolyte, and acid-base disorders, the book is designed to be clinically oriented yet thorough, providing detailed strategies tailored to equine practice. With information ranging from physiology and acid-base balance to fluid therapy for specific conditions, Equine Fluid Therapy covers fluid treatments in both adult horses and foals, highlighting the unique physiologic features, conditions, and differences in foals. Well-illustrated throughout, the book begins with an overview of the physiology of fluids, electrolytes, and acid-base, then moves into practical information including equipment, monitoring techniques, fluid choices, and potential complications. A final section offers chapters on blood transfusions, colloids, parenteral nutrition, and hemodynamic monitoring. Equine Fluid Therapy is an essential reference for equine practitioners, specialists, and researchers.
In a microgravity experiment, the conditions prevalent in fluid phases can be substantially different from those on the ground and can be exploited to improve different processes. Fluid physics research in microgravity is important for the advancement of all microgravity scients: life, material, and engineering. Space flight provides a unique laboratory that allows scientists to improve their understanding of the behaviour of fluids in low gravity, allowing the investigation of phenomena and processes normally masked by the effects of gravity and thus difficult to study on Earth. Physics of Fluids in Microgravity provides a clear view of recent research and progress in the different fields of fluid research in space. The topics presented include bubles and drops dynamics, Maragoni flows, diffustion and thermodiffusion, solidfication,a nd crystal growth. The results obtained so far are, in some cases, to be confirmed by extensive research activities on the International Space station, where basic and applied microgravity experimentation will take place in the years to come.
Includes proceedings of the association, papers read at the annual sessions, and lists of current medical literature.