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"ScienceArts" builds upon natural curiosity as children experience and explore basic science concepts as they create over 200 beautiful and amazing art experiments. Projects use common household materials and art supplies. The art activities are open-ended and easy to do with one science-art experiment per page, fully illustrated and kid-tested. The book inclues three indexes and an innovative charted Table of Contents. Suitable for home, school, museum programs, or childcare, all ages. Kids call this the "ooo-ahhh" book. Examples of projects include: - Crystal Bubbles - Dancing Rabbits - Building Beans - Magnetic Rubbing - Stencil Leaves - Magic Cabbage - Marble Sculpture - Immiscibles - Paint Pendulum - Ice Structures - Bottle Optics - Erupting Colors - Chromatography 1993 Benjamin Franklin Gold Award, Education/Teaching/Academic 1993 Benjamin Franklin Silver Award, Interior Design 1993 Benjamin Franklin Silver Award, Book Cover 1993 Washington Press Communicator Award, First Place Winner, Non-Fiction Book
The intent of this volume is to provide an enticing review, for a general audience, of the very broad topic of connections between art and science; and the writing is deliberately casual and narrative rather than scholarly or encyclopedic. The scope is narrowed somewhat by emphasis on Western culture (with some examples from other civilizations) and by exclusion of literature. After overview chapters, the author delves into some specifics of architecture, decoration, painting and cognition, graphic design, and the performing arts, before concluding with a chapter on art and science symbiosis. The text is attractively produced and illustrated with some 200 (small) diagrams, photos, and reproductions. Strosberg is co-founder of Recontres Art et Science, an association in Paris that sponsors conferences and other events in collaboration with UNESCO. This work was originally published in French, in Paris, in 1999 by UNESCO (although its connection with that agency's mission is not entirely clear). c. Book News Inc.
Scientists are famous for believing in the proven and peer-accepted, the very ground that pioneering artists often subvert; they recognize correct and incorrect where artists see only true and false. And yet in some individuals, crossover learning provides a remarkable kind of catalyst to innovation that sparks the passion, curiosity, and freedom to pursue--and to realize--challenging ideas in culture, industry, society, and research. This book is an attempt to show how innovation in the "post-Google generation" is often catalyzed by those who cross a conventional line so firmly drawn between the arts and the sciences. David Edwards describes how contemporary creators achieve breakthroughs in the arts and sciences by developing their ideas in an intermediate zone of human creativity where neither art nor science is easily defined. These creators may innovate in culture, as in the development of new forms of music composition (through use of chaos theory), or, perhaps, through pioneering scientific investigation in the basement of the Louvre. They may innovate in research institutions, society, or industry, too. Sometimes they experiment in multiple environments, carrying a single idea to social, industrial, and cultural fruition by learning to view traditional art-science barriers as a zone of creativity that Edwards calls artscience. Through analysis of original stories of artscience innovation in France, Germany, and the United States, he argues for the development of a new cultural and educational environment, particularly relevant to today's need to innovate in increasingly complex ways, in which artists and scientists team up with cultural, industrial, social, and educational partners.
(Technical Reference). More than simply the book of the award-winning DVD set, Art & Science of Sound Recording, the Book takes legendary engineer, producer, and artist Alan Parsons' approaches to sound recording to the next level. In book form, Parsons has the space to include more technical background information, more detailed diagrams, plus a complete set of course notes on each of the 24 topics, from "The Brief History of Recording" to the now-classic "Dealing with Disasters." Written with the DVD's coproducer, musician, and author Julian Colbeck, ASSR, the Book offers readers a classic "big picture" view of modern recording technology in conjunction with an almost encyclopedic list of specific techniques, processes, and equipment. For all its heft and authority authored by a man trained at London's famed Abbey Road studios in the 1970s ASSR, the Book is also written in plain English and is packed with priceless anecdotes from Alan Parsons' own career working with the Beatles, Pink Floyd, and countless others. Not just informative, but also highly entertaining and inspirational, ASSR, the Book is the perfect platform on which to build expertise in the art and science of sound recording.
Drawing is not a talent, it's a skill anyone can learn. This is the philosophy of drawing instructor Brent Eviston based on his more than twenty years of teaching. He has tested numerous types of drawing instruction from centuries old classical techniques to contemporary practices and designed an approach that combines tried and true techniques with innovative methods of his own. Now, he shares his secrets with this book that provides the most accessible, streamlined, and effective methods for learning to draw.

Taking the reader through the entire process, beginning with the most basic skills to more advanced such as volumetric drawing, shading, and figure sketching, this book contains numerous projects and guidance on what and how to practice. It also features instructional images and diagrams as well as finished drawings. With this book and a dedication to practice, anyone can learn to draw!

What these extracts are, first and foremost, are stories of discovery. The Art of Science is not necessarily a book about great scientific theories, complicated equations, or grand old men (or women) in their laboratories; instead, it's about the places we draw our inspiration from; it's about daily routines and sudden flashes of insight; about dedication, and - sometimes - desperation; and the small moments, questions, quests, clashes, doubts and delights that make us human. From Galileo to Lewis Carroll, from Humphry Davy to Charles Darwin, from Marie Curie to Stephen Jay Gould, from rust to snowflakes, from the first use of the word "scientist" to the first computer, from why the sea is salty to Newtonian physics for women, The Art of Science is a book about people, rather than scientists per se, and as such, it's a book about politics, passion and poetry. Above all, it's a book about the good that science can - and does - do.
Discover Ernst Haeckel, the 19th-century artist-biologist who found beauty in even the most unlikely of creatures. This collection features 450 prints from his most important publications, including the majestic Kunstformen der Natur and his extensive catalogues of marine life. As biodiversity is ever-more threatened, these exquisite images are...
How the tools of STS can be used to understand art and science and the practices of these knowledge-making communities. In Art, Science, and the Politics of Knowledge, Hannah Star Rogers suggests that art and science are not as different from each other as we might assume. She shows how the tools of science and technology studies (STS) can be applied to artistic practice, offering new ways of thinking about people and objects that have largely fallen outside the scope of STS research. Arguing that the categories of art and science are labels with specific powers to order social worlds—and that art and science are best understood as networks that produce knowledge—Rogers shows, through a series of cases, the similarities and overlapping practices of these knowledge communities. The cases, which range from nineteenth-century artisans to contemporary bioartists, illustrate how art can provide the basis for a new subdiscipline called art, science, and technology studies (ASTS), offering hybrid tools for investigating art–science collaborations. Rogers’s subjects include the work of father and son glassblowers, the Blaschkas, whose glass models, produced in the nineteenth century for use in biological classification, are now displayed as works of art; the physics photographs of documentary photographer Berenice Abbott; and a bioart lab that produces work functioning as both artwork and scientific output. Finally, Rogers, an STS scholar and contemporary art–science curator, draws on her own work to consider the concept of curation as a form of critical analysis.
Presents a model for ensuring quality teaching that balances the necessity of research-based data with the equally vital need to understand the strengths and weaknesses of individual students.
Are art and science separated by an unbridgeable divide? Can they find common ground? In this new book, neuroscientist Eric R. Kandel, whose remarkable scientific career and deep interest in art give him a unique perspective, demonstrates how science can inform the way we experience a work of art and seek to understand its meaning. Kandel illustrates how reductionism—the distillation of larger scientific or aesthetic concepts into smaller, more tractable components—has been used by scientists and artists alike to pursue their respective truths. He draws on his Nobel Prize-winning work revealing the neurobiological underpinnings of learning and memory in sea slugs to shed light on the complex workings of the mental processes of higher animals. In Reductionism in Art and Brain Science, Kandel shows how this radically reductionist approach, applied to the most complex puzzle of our time—the brain—has been employed by modern artists who distill their subjective world into color, form, and light. Kandel demonstrates through bottom-up sensory and top-down cognitive functions how science can explore the complexities of human perception and help us to perceive, appreciate, and understand great works of art. At the heart of the book is an elegant elucidation of the contribution of reductionism to the evolution of modern art and its role in a monumental shift in artistic perspective. Reductionism steered the transition from figurative art to the first explorations of abstract art reflected in the works of Turner, Monet, Kandinsky, Schoenberg, and Mondrian. Kandel explains how, in the postwar era, Pollock, de Kooning, Rothko, Louis, Turrell, and Flavin used a reductionist approach to arrive at their abstract expressionism and how Katz, Warhol, Close, and Sandback built upon the advances of the New York School to reimagine figurative and minimal art. Featuring captivating drawings of the brain alongside full-color reproductions of modern art masterpieces, this book draws out the common concerns of science and art and how they illuminate each other.