Soft Science


Book Description

Paris Review Staff Pick A Book Riot Must-Read Poetry Collection Soft Science explores queer, Asian American femininity. A series of Turing Test-inspired poems grounds its exploration of questions not just of identity, but of consciousness—how to be tender and feeling and still survive a violent world filled with artificial intelligence and automation. We are dropped straight into the tangled intersections of technology, violence, erasure, agency, gender, and loneliness. "Choi creates an exhilarating matrix of poetry, science, and technology." —Publishers Weekly "Franny Choi combines technology and poetry to stunning effect." –BUSTLE “…these beautiful, fractal-like poems are meditations on identity and autonomy and offer consciousness-expanding forays into topics like violence and gender, love and isolation.” –NYLON




Fundamentals of Soft Matter Science


Book Description

Soft materials such as liquid crystals, polymers, biomaterials, and colloidal systems touch every aspect of our lives. Not surprisingly, the rapid growth of these fields over the past few decades has resulted in an explosion of soft matter research groups worldwide. Fundamentals of Soft Matter Science introduces and explores the scientific study of soft matter and molecular self-assembly, covering the major classifications of materials, their structure and characteristics, and everyday applications. Designed for beginners to the field with a basic scientific background, this readable book emphasizes conceptual understanding, minimizing detailed mathematical derivations. Each chapter is dedicated to a different group of soft materials, including liquid crystals, surfactants, polymers, colloids, and soft biomaterials. Each subject is broken down into the essential concepts: material structures and physical characteristics, some simple theoretical ideas, and important experimental methods. The book emphasizes commonly used experimental techniques and practical applications. Full color illustrations and photographs are incorporated throughout to help describe the systems and key concepts.




Fragile Objects


Book Description

Written by 1991 Nobel laureate Pierre Gilles de Gennes, this fascinating book addresses topics ranging from soft-matter physics to the activities of science: the role of individual or team work, the relation of discovery to correction, and the interplay of conscience and knowledge. "Reading this book can be compared to strolling through a magnificent garden of fragile objects...I highly recommend it to any reader who is interested in condensed matter physics and science at large."-PHYSICS TODAY




Essentials of Soft Matter Science


Book Description

Authored by world-leading physicists, this introductory textbook explores the basic principles of polymers, colloids, liquid crystals, wetting, and foams. It is a practical ‘toolbox’ for readers to acquire basic knowledge in the field and facilitate further reading and advanced courses. Undergraduate students in physics, biology, and the medical sciences will learn the basics of soft matter physics, in addition to scaling approaches in the spirit of the Nobel prize laureate in physics in 1991, Pierre-Gilles de Gennes, the inventor of soft matter physics and close collaborator to author Françoise Brochard-Wyart. Features: Accessible and compact approach Contains exercises to enhance understanding All chapters are followed by a short 1-2 page "insert chapter" which serve as illustrations with concrete examples from everyday life (e.g. the Paris Metro, a zebrafish, a gecko, duck feathers etc.)




Soft-wired


Book Description

What if you had the power to change your brain for the better? In Soft-Wired, Dr. Michael Merzenich--a world authority on brain plasticity--explains how the brain rewires itself across the lifespan, and how you can take control of that process to improve your life. In addition to fascinating descriptions of how your brain has produced your unique memories, skills, quirks, and emotions, Soft-Wired offers sound advice for evaluating your brain and gives clear, specific, scientifically proven guidance for how to rejuvenate, remodel, and reshape your brain to improve it at any age.




Soft Matter


Book Description

Roberto Piazza says: “Physics should be made simple enough to be amusing, but not so trivial as to spoil the fun.” This is exactly the approach of this book in making the science of ‘soft matter’ relevant to everyday life things such as the food we eat, the plastic we use, the concrete we build with, the cells we are made of.




Loud Or Soft? High Or Low?


Book Description

Learn about sound and how it reaches your ears.




Pseudoscience


Book Description

Case studies, personal accounts, and analysis show how to recognize and combat pseudoscience in a post-truth world. In a post-truth, fake news world, we are particularly susceptible to the claims of pseudoscience. When emotions and opinions are more widely disseminated than scientific findings, and self-proclaimed experts get their expertise from Google, how can the average person distinguish real science from fake? This book examines pseudoscience from a variety of perspectives, through case studies, analysis, and personal accounts that show how to recognize pseudoscience, why it is so widely accepted, and how to advocate for real science. Contributors examine the basics of pseudoscience, including issues of cognitive bias; the costs of pseudoscience, with accounts of naturopathy and logical fallacies in the anti-vaccination movement; perceptions of scientific soundness; the mainstream presence of “integrative medicine,” hypnosis, and parapsychology; and the use of case studies and new media in science advocacy. Contributors David Ball, Paul Joseph Barnett, Jeffrey Beall, Mark Benisz, Fernando Blanco, Ron Dumont, Stacy Ellenberg, Kevin M. Folta, Christopher French, Ashwin Gautam, Dennis M. Gorman, David H. Gorski, David K. Hecht, Britt Marie Hermes, Clyde F. Herreid, Jonathan Howard, Seth C. Kalichman, Leif Edward Ottesen Kennair, Arnold Kozak, Scott O. Lilienfeld, Emilio Lobato, Steven Lynn, Adam Marcus, Helena Matute, Ivan Oransky, Chad Orzel, Dorit Reiss, Ellen Beate Hansen Sandseter, Kavin Senapathy, Dean Keith Simonton, Indre Viskontas, John O. Willis, Corrine Zimmerman




Soft Computing in Humanities and Social Sciences


Book Description

The field of Soft Computing in Humanities and Social Sciences is at a turning point. The strong distinction between “science” and “humanities” has been criticized from many fronts and, at the same time, an increasing cooperation between the so-called “hard sciences” and “soft sciences” is taking place in a wide range of scientific projects dealing with very complex and interdisciplinary topics. In the last fifteen years the area of Soft Computing has also experienced a gradual rapprochement to disciplines in the Humanities and Social Sciences, and also in the field of Medicine, Biology and even the Arts, a phenomenon that did not occur much in the previous years. The collection of this book presents a generous sampling of the new and burgeoning field of Soft Computing in Humanities and Social Sciences, bringing together a wide array of authors and subject matters from different disciplines. Some of the contributors of the book belong to the scientific and technical areas of Soft Computing while others come from various fields in the humanities and social sciences such as Philosophy, History, Sociology or Economics. Rudolf Seising received a Ph.D. degree in philosophy of science and a postdoctoral lecture qualification (PD) in history of science from the Ludwig Maximilians University of Munich. He is an Adjoint Researcher at the European Centre for Soft Computing in Mieres (Asturias), Spain. Veronica Sanz earned a Ph.D. in Philosophy at the University Complutense of Madrid (Spain). At the moment she is a Postdoctoral Researcher at the Science, Technology and Society Center in the University of California at Berkeley. Veronica Sanz earned a Ph.D. in Philosophy at the University Complutense of Madrid (Spain). At the moment she is a Postdoctoral Researcher at the Science, Technology and Society Center in the University of California at Berkeley.




Soft Computing in Chemical and Physical Sciences


Book Description

This book can be regarded as 'Soft computing for physicists and chemists self-taught'. It prepares the readers with a solid background of soft computing and how to adapt soft computing techniques to problem solving in physical and chemical research. Soft computing methods have been little explored by researchers in physical and chemical sciences primarily because of the absence of books that bridge the gap between the traditional computing paradigm pursued by researchers in science and the new soft computing paradigm that has emerged in computer science. This book is the interface between these primary sources and researchers in physics and chemistry.