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Why Science Needs Art explores the complex relationship between these seemingly polarised fields. Reflecting on a time when art and science were considered inseparable and symbiotic pursuits, the book discusses how they have historically informed and influenced each other, before considering how public perception of the relationship between these disciplines has fundamentally changed. Science and art have something very important in common: they both seek to reduce something infinitely complex to something simpler. Using examples from diverse areas including microscopy, brain injury, classical art, and data visualization, the book delves into the history of the intersection of these two disciplines, before considering current tensions between the fields. The emerging field of neuroaesthetics and its attempts to scientifically understand what humans find beautiful is also explored, suggesting ways in which the relationship between art and science may return to a more co-operative state in the future. Why Science Needs Art provides an essential insight into the relationship between art and science in an appealing and relevant way. Featuring colorful examples throughout, the book will be of interest to students and researchers of neuroaesthetics and visual perception, as well as all those wanting to discover more about the complex and exciting intersection of art and science.
Does science have all the answers? Can it even deal with abstract reasoning beyond the world we experience? How can we ensure that the physical world is sufficiently ordered to be intelligible to humans? How can mathematics, a product of human minds, unlock the secrets of the physical universe? Should all such questions be considered inadmissible if science cannot settle them? Metaphysics has traditionally been understood as reasoning beyond the reach of science, sometimes even claiming realities beyond its grasp. Because of this, metaphysics is often contemptuously dismissed by scientists and philosophers who wish to remain within the bounds of what can be scientifically proven. Yet scientists at the frontiers of physics unwittingly engage in metaphysics, as they are now happy to contemplate whole universes that are, in principle, beyond human reach. Roger Trigg challenges those who deny that science needs philosophical assumptions. Trigg claims that the foundations of science themselves have to lie beyond science. It takes reasoning apart from experience to discover what is not yet known and this metaphysical reasoning to imagine realities beyond what can be accessed. “In Beyond Matter, Roger Trigg advances a powerful, persuasive, fair-minded argument that the sciences require a philosophical, metaphysical foundation. This is a brilliant book for newcomers to the philosophy of science and experts alike.” —Charles Taliaferro, professor of philosophy, St. Olaf College
Communicate more effectively about science—by taking a page from Hollywood and improving your storytelling skills. Ask a scientist about Hollywood, and you’ll probably get eye rolls. But ask someone in Hollywood about science, and they’ll see dollar signs: Moviemakers know that science can be the source of great stories, with all the drama and action that blockbusters require. That’s a huge mistake, says Randy Olson: Hollywood has a lot to teach scientists about how to tell a story—and, ultimately, how to do science better. With Houston, We Have a Narrative, he lays out a stunningly simple method for turning the dull into the dramatic. Drawing on his unique background, which saw him leave his job as a working scientist to launch a career as a filmmaker, Olson first diagnoses the problem: When scientists tell us about their work, they pile one moment and one detail atop another moment and another detail—a stultifying procession of “and, and, and.” What we need instead is an understanding of the basic elements of story, the narrative structures that our brains are all but hardwired to look for—which Olson boils down, brilliantly, to “And, But, Therefore,” or ABT. At a stroke, the ABT approach introduces momentum (“And”), conflict (“But”), and resolution (“Therefore”)—the fundamental building blocks of story. As Olson has shown by leading countless workshops worldwide, when scientists’ eyes are opened to ABT, the effect is staggering: suddenly, they’re not just talking about their work—they’re telling stories about it. And audiences are captivated. Written with an uncommon verve and enthusiasm, and built on principles that are applicable to fields far beyond science, Houston, We Have a Narrative has the power to transform the way science is understood and appreciated, and ultimately how it’s done.
An introduction to the work and ideas of artists who use—and even influence—science and technology. A new breed of contemporary artist engages science and technology—not just to adopt the vocabulary and gizmos, but to explore and comment on the content, agendas, and possibilities. Indeed, proposes Stephen Wilson, the role of the artist is not only to interpret and to spread scientific knowledge, but to be an active partner in determining the direction of research. Years ago, C. P. Snow wrote about the "two cultures" of science and the humanities; these developments may finally help to change the outlook of those who view science and technology as separate from the general culture. In this rich compendium, Wilson offers the first comprehensive survey of international artists who incorporate concepts and research from mathematics, the physical sciences, biology, kinetics, telecommunications, and experimental digital systems such as artificial intelligence and ubiquitous computing. In addition to visual documentation and statements by the artists, Wilson examines relevant art-theoretical writings and explores emerging scientific and technological research likely to be culturally significant in the future. He also provides lists of resources including organizations, publications, conferences, museums, research centers, and Web sites.
Physics in the Arts, Third Edition gives science enthusiasts and liberal arts students an engaging, accessible exploration of physical phenomena, particularly with regard to sound and light. This book offers an alternative route to science literacy for those interested in the arts, music and photography. Suitable for a typical course on sound and light for non-science majors, Gilbert and Haeberli's trusted text covers the nature of sound and sound perception as well as important concepts and topics such as light and light waves, reflection and refraction, lenses, the eye and the ear, photography, color and color vision, and additive and subtractive color mixing. Additional sections cover color generating mechanisms, periodic oscillations, simple harmonic motion, damped oscillations and resonance, vibration of strings, Fourier analysis, musical scales and musical instruments. - Winner of a 2022 Textbook Excellence Award (College) (Texty) from the Textbook and Academic Authors Association - Offers an alternative route to science literacy for those interested in the visual arts, music and photography - Includes a new and unique quantitative encoding approach to color vision, additive and subtractive color mixing, a section on a simplified approach to quantitative digital photography, how the ear-brain system works as a Fourier analyzer, and updated and expanded exercises and solutions - Provides a wealth of student resources including in-text solutions and online materials including demo and lecture videos, practice problems, and other useful files: https://www.elsevier.com/books-and-journals/book-companion/9780128243473 - Supplies teaching materials for qualified instructors, including chapter image banks, model homework sets, and model exams: ttps://educate.elsevier.com/book/details/9780128243473
In early 2012, the global scientific community erupted with news that the elusive Higgs boson had likely been found, providing potent validation for the Standard Model of how the universe works. Scientists from more than one hundred countries contributed to this discovery—proving, beyond any doubt, that a new era in science had arrived, an era of multinationalism and cooperative reach. Globalization, the Internet, and digital technology all play a role in making this new era possible, but something more fundamental is also at work. In all scientific endeavors lies the ancient drive for sharing ideas and knowledge, and now this can be accomplished in a single tongue— English. But is this a good thing? In Does Science Need a Global Language?, Scott L. Montgomery seeks to answer this question by investigating the phenomenon of global English in science, how and why it came about, the forms in which it appears, what advantages and disadvantages it brings, and what its future might be. He also examines the consequences of a global tongue, considering especially emerging and developing nations, where research is still at a relatively early stage and English is not yet firmly established. Throughout the book, he includes important insights from a broad range of perspectives in linguistics, history, education, geopolitics, and more. Each chapter includes striking and revealing anecdotes from the front-line experiences of today’s scientists, some of whom have struggled with the reality of global scientific English. He explores topics such as student mobility, publication trends, world Englishes, language endangerment, and second language learning, among many others. What he uncovers will challenge readers to rethink their assumptions about the direction of contemporary science, as well as its future.
Jeff Goins dismantles the myth that being creative is a hindrance to success by revealing how an artistic temperament is a competitive advantage in the marketplace.? The myth of the starving artist has dominated our culture, seeping into the minds of creative people and stifling their pursuits. The truth is that the world's most successful artists did not starve. In fact, they capitalized on the power of their creative strength. In Real Artists Don't Starve, bestselling author and creativity expert Jeff Goins debunks the myth of the starving artist by unveiling the ideas that created it and replacing them with 14 rules for artists to thrive, including: Steal from your influences (don't wait for inspiration) Collaborate with others (working alone is a surefire way to starve) Take strategic risks (instead of reckless ones) Make money in order to make more art (it's not selling out) Apprentice under a master (a "lone genius" can never reach full potential) From graphic designers and writers to artists and business professionals, creatives already know that no one is born an artist. Goins' revolutionary rules celebrate the process of becoming an artist, a person who utilizes the imagination in fundamental ways. He reminds creatives that business and art are not mutually exclusive pursuits. Real Artists Don't Starve explores the tension every creative person and organization faces in an effort to blend the inspired life with a practical path to success. Being creative isn't a disadvantage for success, it is a powerful tool to be harnessed.
Following on from Part 1, which was highly acclaimed by the space community, this peer-viewed book provides detailed insights into how space and popular culture intersect across a broad spectrum of areas, including cinema, music, art, arcade games, cartoons, comics, and advertisements. This is a pertinent topic since the use of space themes differs in different cultural contexts, and these themes can be used to explore various aspects of the human condition and provide a context for social commentary on politically sensitive issues. With the use of space imagery evolving over the past sixty years of the space age, this topic is ripe for in-depth exploration. Covering a wide array of relevant and timely topics, the book examines the intersections between space and popular culture, and offers accounts of space and its effect on culture, language, and storytelling from the southern regions of the world.
Introduction to Art: Design, Context, and Meaning offers a deep insight and comprehension of the world of Art. Contents: What is Art? The Structure of Art Significance of Materials Used in Art Describing Art - Formal Analysis, Types, and Styles of Art Meaning in Art - Socio-Cultural Contexts, Symbolism, and Iconography Connecting Art to Our Lives Form in Architecture Art and Identity Art and Power Art and Ritual Life - Symbolism of Space and Ritual Objects, Mortality, and Immortality Art and Ethics
Materials and Design: The Art and Science of Material Selection in Product Design, Second Edition, discusses the role of materials and processes in product design. The book focuses on the materials that designers need, as well as on how and why they use them. The book's 10 chapters cover topics such as function and personality, factors influencing product design, the design process, materials selection, and case studies in materials and design. Appendices for each chapter provide exercises for readers, along with detailed charts of technical attributes of different materials for reference. This book will be particularly useful to both students and working designers. Students are introduced to the role of materials in manufacturing and design, with the help of familiar language and concepts. Working designers can use the book as a reference source for materials and manufacturing. - The best guide ever published on the on the role of materials, past and present, in product development, by noted materials authority Mike Ashby and professional designer Kara Johnson--now with even better photos and drawings on the Design Process - Significant new section on the use of re-cycled materials in products, and the importance of sustainable design for manufactured goods and services - Enhanced materials profiles, with addition of new materials types like nanomaterials, advanced plastics and bio-based materials