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Science and art are increasingly interconnected in the activities of the study and conservation of works of art. Science plays a key role in cultural heritage, from developing new analytical techniques for studying the art, to investigating new ways of preserving the materials for the future. For example, high resolution multispectral examination of paintings allows art historians to view underdrawings barely visible before, while the use of non-invasive and micro-sampling analytical techniques allow scientists to identify pigments and binders that help art conservators in their work. It also allows curators to understand more about how the artwork was originally painted. Through a series of case studies written by scientists together with art historians, archaeologists and conservators, Science and Art: The Painted Surface demonstrates how the cooperation between science and humanities can lead to an increased understanding of the history of art and to better techniques in conservation. The examples used in the book cover paintings from ancient history, Renaissance, modern, and contemporary art, belonging to the artistic expressions of world regions from the Far East to America and Europe. Topics covered include the study of polychrome surfaces from pre-Columbian and medieval manuscripts, the revelation of hidden images below the surface of Van Gogh paintings and conservation of acrylic paints in contemporary art. Presented in an easily readable form for a large audience, the book guides readers into new areas uncovered by the link between science and art. The book features contributions from leading institutions across the globe including the Metropolitan Museum of Art, New York; Art Institute of Chicago; Getty Conservation Institute; Opificio delle Pietre Dure, Firenze; National Gallery of London; Tate Britain; Warsaw Academy of Fine Art and the National Gallery of Denmark as well as a chapter covering the Thangka paintings by Nobel Prize winner Richard Ernst.
The story of this little-known Dutch physician “will interest students and practitioners of history, chemistry, and philosophy of science” (Choice). In Inventing Chemistry, historian John C. Powers turns his attention to Herman Boerhaave (1668–1738), a Dutch medical and chemical professor whose work reached a wide, educated audience and became the template for chemical knowledge in the eighteenth century. The primary focus of this study is Boerhaave’s educational philosophy, and Powers traces its development from Boerhaave’s early days as a student in Leiden through his publication of the Elementa chemiae in 1732. Powers reveals how Boerhaave restructured and reinterpreted various practices from diverse chemical traditions (including craft chemistry, Paracelsian medical chemistry, and alchemy), shaping them into a chemical course that conformed to the pedagogical and philosophical norms of Leiden University’s medical faculty. In doing so, Boerhaave gave his chemistry a coherent organizational structure and philosophical foundation, and thus transformed an artisanal practice into an academic discipline. Inventing Chemistry is essential reading for historians of chemistry, medicine, and academic life.
From Egyptian wall paintings to the Venetian Renaissance, impressionism to digital images, Philip Ball tells the fascinating story of how art, chemistry, and technology have interacted throughout the ages to render the gorgeous hues we admire on our walls and in our museums. Finalist for the 2002 National Book Critics Circle Award.
Providing must-have knowledge for the pharmaceutical industry and process chemists in industry, this ready reference offers solutions for saving time and money and supplying -- in a sustainable way -- valuable products. Application-oriented and well structured, each chapter presents successful strategies for the latest modern drugs, showing how to provide very fast bulk quantities of drug candidates. Throughout, the text illustrates how all the key factors are interwoven and dependent on one another in creating optimized methods for optimal products.
Images and text capture the astonishing beauty of the chemical processes that create snowflakes, bubbles, flames, and other wonders of nature. Chemistry is not just about microscopic atoms doing inscrutable things; it is the process that makes flowers and galaxies. We rely on it for bread-baking, vegetable-growing, and producing the materials of daily life. In stunning images and illuminating text, this book captures chemistry as it unfolds. Using such techniques as microphotography, time-lapse photography, and infrared thermal imaging, The Beauty of Chemistry shows us how chemistry underpins the formation of snowflakes, the science of champagne, the colors of flowers, and other wonders of nature and technology. We see the marvelous configurations of chemical gardens; the amazing transformations of evaporation, distillation, and precipitation; heat made visible; and more.
Painting with Fire shows how experiments with chemicals known to change visibly over the course of time transformed British pictorial arts of the long eighteenth century—and how they can alter our conceptions of photography today. As early as the 1670s, experimental philosophers at the Royal Society of London had studied the visual effects of dynamic combustibles. By the 1770s, chemical volatility became central to the ambitious paintings of Sir Joshua Reynolds, premier portraitist and first president of Britain’s Royal Academy of Arts. Valued by some critics for changing in time (and thus, for prompting intellectual reflection on the nature of time), Reynolds’s unstable chemistry also prompted new techniques of chemical replication among Matthew Boulton, James Watt, and other leading industrialists. In turn, those replicas of chemically decaying academic paintings were rediscovered in the mid-nineteenth century and claimed as origin points in the history of photography. Tracing the long arc of chemically produced and reproduced art from the 1670s through the 1860s, the book reconsiders early photography by situating it in relationship to Reynolds’s replicated paintings and the literal engines of British industry. By following the chemicals, Painting with Fire remaps familiar stories about academic painting and pictorial experiment amid the industrialization of chemical knowledge.
The physics and materials science behind paintings: the pigments, binders, canvas, and varnish that go into making a painting appear the way it does. The text discusses the physical principles behind the colors seen and how these change with illumination, the various types of paint and binders used in both old and modern paintings, and the optics and microscopic structure of paint films. Chapters on dating, binders, and dendochronology have been contributed by experts in the respective fields.
This fascinating book explores the intersection of chemistry and the visual arts. George Henry Bachhoffner provides a detailed analysis of the chemical properties of pigments, binders, and other materials used in painting and other artistic media. He also delves into the chemical reactions that occur during the artistic process, and examines the effects of environmental factors on the preservation and degradation of artwork. This book is essential for anyone interested in the science of art conservation and restoration. This work has been selected by scholars as being culturally important, and is part of the knowledge base of civilization as we know it. This work is in the "public domain in the United States of America, and possibly other nations. Within the United States, you may freely copy and distribute this work, as no entity (individual or corporate) has a copyright on the body of the work. Scholars believe, and we concur, that this work is important enough to be preserved, reproduced, and made generally available to the public. We appreciate your support of the preservation process, and thank you for being an important part of keeping this knowledge alive and relevant.