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Edited by Ludger Hovestadt and Vera Bühlmann Applied Virtuality is a book series which is edited by Ludger Hovestadt, ITA Institute of Technology in Architecture, ETH Zürich, Switzerland and Vera Bühlmann, Technical University Vienna, Institute for Architectural Theory. Based on the thesis that technology changes character over time, the series aims and scopes are to reflect that change by describing and analyzing the most recent explorations and innovations in technology, as well as their implications for a more philosophically comprehensive understanding of technics in our contemporary symbolical, information saturated, climatic environments. The overall interest thereby is to (1) affirm the mightiness of the generic without embracing homogeneity as a necessary consequence, (2) to affirm calculation, computation and automatization without embracing the reduction of human intellect to mechanisation without arcane ésprit, and (3) to oppose in principle the contemporary attitude that tends towards a certain “intellectual chicness” that seems to rather narcissistically celebrate itself in a strangely detached competition for “critical divination” of soon-to-be-expected cultural doom and decay. With the birth of abstract/symbolic/universal algebra in the late 19th century, many scholars associate a fundamental crisis that affects human culture at large. We owe all of our contemporary electric and information-based infrastructures for living to these developments in mathematics, and it is no coincidence that we tend to find the symptoms that point to the manifestation of this crisis in the changes this new form of technics imposes on the people who begin to rely on it. This crisis is classically conceived as a crisis of intuition (Hans Hahn, Edmund Husserl et cetera). But from a more appreciative stance towards the sheer unlikeliness and fantastic power of intellection which is at work everywhere in the reality of such media-ized living environments, we might just as well see in this characterization an anxious (even if all-too understandable) misconception of the critical developments we are experiencing. From this stance, the sheer prominence of this misconception today indicates what appears like a certain fatigue of thinking, perhaps an exhaustion-through-overwhelming of our collective power to imagine. We mean no offence by saying this. Let us illustrate more concretely: John Orton maintains in his book Semiconductors and the Information Revolution: Magic Crystals That Made IT Happen, that “as a human achievement,” semiconductors ought to “rank alongside the Beethoven Symphonies, Concord, Impressionism, medieval cathedrals and Burgundy wines and we should be equally proud of it” (2009, p. 2). Why is it, indeed, that this demand feels odd? Of course this lack of appreciating our current form of technics is owed partially to its abstractness and the degree of expertise it seems to demand from us. But has this not been the case for any of the abovementioned artifacts we all meanwhile hold as precious and dear? We hope to find the right dosage of irony and humor that seems so necessary for theorizing technics, arts, intellection in a manner that seeks to escape (1) the servile irresponsibility that attaches to programs of mechanization, as well as (2) the narrow-mindedness and missionary commitment that attaches to ideological doctrine and programmatic. By celebrating moments of intellectual quickness, with our interest in theory and abstraction, we pursue a genuinely comparatistic approach. We regard artifacts as theoretical objects, constituted by the intelligible codes and symbolic grammaticality that give them consistency. But we don’t see the reality of artifacts in the white spectrum of these codes and symbols; rather, we see their reality in that which is enciphered thereby. The ambitions of a comparatistic approach to theory strive towards an alphabetization and literacy of these codes.
Learn physics, engineering, and geology concepts usually seen in high school and college in an easy, accessible style. This second volume addresses these topics for advanced science fair participants or those who just like reading about and understanding science. 3D Printed Science Project Volume 2 describes eight open-source 3D printable models, as well as creative activities using the resulting 3D printed pieces. The files are designed to print as easily as possible, and the authors give tips for printing them on open source printers. As 3D printers become more and more common and affordable, hobbyists, teachers, parents, and students stall out once they've printed some toys and a few household items. To get beyond this, most people benefit from a “starter set” of objects as a beginning point in their explorations, partially just to see what is possible. This book tells you the solid science stories that these models offer, and provides them in open-source repositories. What You Will Learn Create (and present the science behind) 3D printed models Review innovative ideas for tactile ways to learn concepts in engineering, geology and physics Learn what makes a models easy or hard to 3D print Who This Book Is For The technology- squeamish teacher and parents who want their kids to learn something from their 3D printer but don’t know how, as well as high schoolers and undergraduates.
Create 3D printable models that can help students from kindergarten through grad school learn math, physics, botany, chemistry, engineering and more. This book shows parents and teachers how to use the models inside as starting points for 3D printable explorations. Students can start with these models and vary them for their own explorations. Unlike other sets of models that can just be scaled, these models have the science built-in to allow for more insight into the fundamental concepts. Each of the eight topics is designed to be customized by you to create a wide range of projects suitable for science fairs, extra credit, or classroom demonstrations. Science fair project suggestions and extensive "where to learn more" resources are included, too. You will add another dimension to your textbook understanding of science. What You'll Learn Create (and present the science behind) 3D printed models. Use a 3D printer to create those models as simply as possible. Discover new science insights from designing 3D models. Who This Book Is For Parents and teachers
Written by one of the leaders of the Physics Education Research (PER) movement, Teaching Physics is a book for anyone interested in learning how to become a more effective physics teacher. Rather than reviewing specific topics in physics with hints for how to teach them and lists of common student difficulties, Teaching Physics presents a variety of tools for improving both the teaching and learning of physics--from new kinds of homework and exam problems, to surveys for figuring out what has happened in your class, to tools for taking and analyzing data using computers and video. Teaching Physics is a companion guide to using the Physics Suite, an integrated collection of research-based instructional materials for lecture, laboratory, recitation, and workshop/studio environments. But even if you don't use a single element from the Suite, Teaching Physics can help you enhance your students' learning experience.
"This introductory, algebra-based, two-semester college physics book is grounded with real-world examples, illustrations, and explanations to help students grasp key, fundamental physics concepts. ... This online, fully editable and customizable title includes learning objectives, concept questions, links to labs and simulations, and ample practice opportunities to solve traditional physics application problems."--Website of book.
APlusPhysics: Your Guide to Regents Physics Essentials is a clear and concise roadmap to the entire New York State Regents Physics curriculum, preparing students for success in their high school physics class as well as review for high marks on the Regents Physics Exam. Topics covered include pre-requisite math and trigonometry; kinematics; forces; Newton's Laws of Motion, circular motion and gravity; impulse and momentum; work, energy, and power; electrostatics; electric circuits; magnetism; waves; optics; and modern physics. Featuring more than five hundred questions from past Regents exams with worked out solutions and detailed illustrations, this book is integrated with the APlusPhysics.com website, which includes online question and answer forums, videos, animations, and supplemental problems to help you master Regents Physics essentials. "The best physics books are the ones kids will actually read." Advance Praise for APlusPhysics Regents Physics Essentials: "Very well written... simple, clear engaging and accessible. You hit a grand slam with this review book." -- Anthony, NY Regents Physics Teacher. "Does a great job giving students what they need to know. The value provided is amazing." -- Tom, NY Regents Physics Teacher. "This was tremendous preparation for my physics test. I love the detailed problem solutions." -- Jenny, NY Regents Physics Student. "Regents Physics Essentials has all the information you could ever need and is much easier to understand than many other textbooks... it is an excellent review tool and is truly written for students." -- Cat, NY Regents Physics Student
This book comprehensively addresses the physics and engineering aspects of human physiology by using and building on first-year college physics and mathematics. Topics include the mechanics of the static body and the body in motion, the mechanical properties of the body, muscles in the body, the energetics of body metabolism, fluid flow in the cardiovascular and respiratory systems, the acoustics of sound waves in speaking and hearing, vision and the optics of the eye, the electrical properties of the body, and the basic engineering principles of feedback and control in regulating all aspects of function. The goal of this text is to clearly explain the physics issues concerning the human body, in part by developing and then using simple and subsequently more refined models of the macrophysics of the human body. Many chapters include a brief review of the underlying physics. There are problems at the end of each chapter; solutions to selected problems are also provided. This second edition enhances the treatments of the physics of motion, sports, and diseases and disorders, and integrates discussions of these topics as they appear throughout the book. Also, it briefly addresses physical measurements of and in the body, and offers a broader selection of problems, which, as in the first edition, are geared to a range of student levels. This text is geared to undergraduates interested in physics, medical applications of physics, quantitative physiology, medicine, and biomedical engineering.
The most comprehensive match to the new 2014 Chemistry syllabus, this completely revised edition gives you unrivalled support for the new concept-based approach, the Nature of science. The only DP Chemistry resource that includes support directly from the IB, focused exam practice, TOK links and real-life applications drive achievement.