The desire for knowledge is an abiding facet of human experience and cultural development. This work documents curiosity as a sociohistorical force initiating research across the disciplines. Projects generated by theoretical curiosity are presented as historical and material practices emerging as expressions of embodied knowledge and experience. The shifting cultural, philosophical and practical relations between theory and curiosity are situated within classical, medieval, early modern and contemporary communities of practice. The Practice of Theoretical Curiosity advocates for a critical, aesthetic engagement in everyday life. Its purpose is to examine the pedagogical grounds and questions that motivate research programs in the sciences, education, technoculture and post-war social movements. Theoretical curiosity continually resists disciplinary limits. It is a core, embodied process uniting human pursuits of knowledge and power. This inquiry into inquiry itself offers an appreciation of the vital continuity between the senses, perception, and affect and concept development. It is informed by a critical reading of phenomenology as the embodied practice of researchers. This study sponsors a deepening of theory in practice and the practice of theoretical exploration. As a contribution to pedagogical practice, it offers a historical critique of the usually unquestioned philosophical, political and ethical grounds for educational, scientific and social research. The Practice of Theoretical Curiosity profiles significant alliances and persona as agents for the pursuit of novel and often controversial research, adventures and discovery. It claims that the place of technology and the technical is the primary channel for contemporary inquiry. The technosciences of genomics, artificial life and astrobiology are considered as contemporary extensions of a perennial desire to pursue and resist the limits of existing knowledge and representation.

The fundamental conceptions of twentieth-century physics have profoundly influenced almost every field of modern thought and activity. Quantum Theory, Relativity, and the modern ideas on the Structure of Matter have contributed to a deeper understand ing of Nature, and they will probably rank in history among the greatest intellectual achievements of all time. The purpose of our symposium was to review, in historical perspective, the current horizons of the major conceptual structures of the physics of this century. Professors Abdus Salam and Hendrik Casimir, in their remarks at the opening of the symposium, have referred to its origin and planning. Our original plan was to hold a two-week symposium on the different aspects of five principal themes: 1. Space, Time and Geometry (including the structure of the universe and the theory of gravita tion),2. Quantum Theory (including the development of quantum mechanics and quantum field theory), 3. Statistical Description of Nature (including the discussion of equilibrium and non-equilibrium phenomena, and the application of these ideas to the evolution of biological structure), 4. The Structure of Matter (including the discus sion, in a unified perspective, of atoms, molecules, nuclei, elementary particles, and the physics of condensed matter), and finally, 5. Physical Description and Epistemo logy (including the distinction between classical and quantum descriptions, and the epistemological and philosophical problems raised by them).

Ideas which are comfortable and familiar are not likely to challenge or transform our thinking. As human beings, our need to reduce cognitive dissonance causes us to seek the familiar and reject the unfamiliar, often without careful reflection. Scholars must overcome such natural tendencies in order to look beyond the reaches of well accepted doctrine, exploring less-understood and less-accepted explanations of the way things are, and consider instead the possibilities that alternative futures could hold.
Collectively the chapters that make up volume 12 are a statement of the vibrancy and ever changing nature of the field of organizational change and development.

For Fans of Mary Roach, a Sweetly Nostalgic and Enlightening Exploration of Futures Past, Present, and Still to Come Generation Robot covers a century of science fiction, fact, and speculation-from the 1950 publication of Isaac Asimov's seminal robot masterpiece, I, Robot, to the 2050 Singularity when artificial and human intelligence are predicted to merge. Beginning with a childhood informed by pop-culture robots in movies, in comic books, and on TV in the 1960s, to adulthood where the possibilities of self-driving cars and virtual reality are daily conversation, Terri Favro offers a unique perspective on how our relationship with robotics and futuristic technologies has shifted over time. Peppered with pop-culture fun-facts about Superman's kryptonite, the human-machine relationships in the cult TV show Firefly, and the sexual and moral implications of the film Ex Machina, Generation Robot explores how the techno-triumphs and resulting anxieties of reality bleed into the fantasies of our collective culture. Clever and accessible, Generation Robot isn't just for the serious, scientific reader-it's for everyone interested in robotics and technology since their science-fiction origins. By looking back at the future she once imagined, analyzing the plugged-in present, and speculating on what is on the horizon, Terri Favro allows readers the chance to consider what was, what is, and what could be. This is a captivating book that looks at the pop-culture of our society to explain how the world works-now and tomorrow.

This book examines the latest manifestations of resource competition. The energy transition and the digitalization of the global economy are both accelerating even as geopolitics driven by Sino-American hyper-competition become increasingly contentious. The volume brings together an interdisciplinary group of scholars, policy makers, institutional stakeholders, and industry experts to analyze not only the transition itself, but also the implications that the need for uninterrupted access to unprecedented levels of raw materials generates. By framing the challenges ahead for global society, governance, industry, international power politics, and the environment, the book asks hard questions about the choices that need to be made to reach net zero by mid-century. Moreover, it sheds light on different facets of the growing risks to what have been global interdependent supply chains in a way that is nuanced, balanced, and practical, thus pushing back on some of the most sensational headlines that breed confusion and may lead policymakers to make more narrow and less effective decisions. The volume is an outcome of "Rich Rocks, the Climate Crisis and the Tech-imperium" a Summer Institute at Caltech and the Huntington that took place in July 2021.

This book provides a detailed history of the United States National Committee on Theoretical and Applied Mechanics (USNC/TAM) of the US National Academies, the relationship between the USNC/TAM and IUTAM, and a review of the many mechanicians who developed the field over time. It emphasizes the birth and growth of USNC/TAM, the birth and growth of the larger International Union of Theoretical and Applied Mechanics (IUTAM), and explores the work of mechanics from Aristotle to the present. Written by the former Secretary of USNC/TAM, Dr. Carl T. Herakovich of the University of Virginia, the book profiles luminaries of mechanics including Galileo, Newton, Bernoulli, Euler, Cauchy, Prandtl, Einstein, von Karman, Timoshenko, and in so doing provides insight into centuries of scientific and technologic advance.

This book analyzes the evolution of Italian viticulture and winemaking from the 1860s to the new Millennium. During this period the Italian wine sector experienced a profound modernization, renovating itself and adapting its products to international trends, progressively building the current excellent reputation of Italian wine in the world market. Using unpublished sources and a vast bibliography, authors highlight the main factors favoring this evolution: public institutional support to viticulture; the birth and the growth of Italian wine entrepreneurship; the improvement in quality of the winemaking processes; the increasing relevance of viticulture and winemaking in Italian agricultural production and export; and the emergence of wine as a cultural product.

This monograph is dedicated to the lives and scientific achievements of the physiology pioneers Warren and Margaret Lewis. Their story spans the first half of the 20th century, from their respective educations through early, independent research to joint research from 1910 to 1955. Among the numerous developments they initiated, were the discovery of pinocytosis, the beginnings of video microscopy and the development of the first mammalian tissue cultures. Their research expanded the theoretical knowledge of cell structure and function. On a more practical level, they advanced many laboratory methods, like the first recipes for culture media. The text is beautifully enriched with personal anecdotes about their lives. This is the story of two scientific pioneers in the context of early 20th century biology and physiology. It is an inspiration for senior and aspiring researchers.

Nothing captivates the human imagination like the vast unknowns of space. Ancient petroglyphs present renderings of the heavens, proof that we have been gazing up at the stars with wonder for thousands of years. Since then, mankind has systematically expanded our cosmic possibilities. What were once flights of fancy and dreams of science fiction writers have become nearly routine - a continuous human presence orbiting the Earth, probes flying beyond our solar system, and men walking on the moon. NASA and the Russian space program make traveling to the stars look easy, but it has been far from that. Space travel is a sometimes heroic, sometimes humorous, and always dangerous journey fraught with perils around every corner that most of us have never heard of or have long since forgotten. Space Oddities brings these unknown, offbeat, and obscure stories of space to life. From the showmanship and bravado of the earliest known space fatality, German Max Valier, to the first ever indictment under the Espionage Act on an Army officer who leaked secrets concerning the development of early U.S. rockets; and the story of a single loose bolt that defeated the Soviet Union's attempt to beat America to the moon. Author Joe Cuhaj also sheds light on the human aspects of space travel that have remained industry secrets - until now: how the tradition of using a musical playlist to wake astronauts up began, fascinating tales about inventions like the Fischer Space Pen, Omega watches, and even Tang breakfast drink. In addition to fun and entertaining space trivia, Space Oddities also features stories of the profound impact that space travel has had on challenges right here at home, like the effort by civil rights leaders and activists in the 1960s to bring the money from the space program back home to those in need on Earth; NASA's FLATs (First Lady Astronaut Training) program and the 25 women who were selected to become astronauts in 1960, but were denied a chance at flying even after successfully completing the rigorous astronaut training program; and, the animals who many times sacrificed their lives to prove that man could fly in space. Filled with rare and little-known stories, Space Oddities will bring the final frontier to the homes of diehard space readers and armchair astronauts alike.

The uses of time in astronomy - from pointing telescopes, coordinating and processing observations, predicting ephemerides, cultures, religious practices, history, businesses, determining Earth orientation, analyzing time-series data and in many other ways - represent a broad sample of how time is used throughout human society and in space. Time and its reciprocal, frequency, is the most accurately measurable quantity and often an important path to the frontiers of science. But the future of timekeeping is changing with the development of optical frequency standards and the resulting challenges of distributing time at ever higher precision, with the possibility of timescales based on pulsars, and with the inclusion of higher-order relativistic effects. The definition of the second will likely be changed before the end of this decade, and its realization will increase in accuracy; the definition of the day is no longer obvious. The variability of the Earth's rotation presents challenges of understanding and prediction. In this symposium speakers took a closer look at time in astronomy, other sciences, cultures, and business as a defining element of modern civilization. The symposium aimed to set the stage for future timekeeping standards, infrastructure, and engineering best practices for astronomers and the broader society. At the same time the program was cognizant of the rich history from Harrison's chronometer to today's atomic clocks and pulsar observations. The theoreticians and engineers of time were brought together with the educators and historians of science, enriching the understanding of time among both experts and the public.

The present volume, compiled in honor of an outstanding historian of science, physicist and exceptional human being, Sam Schweber, is unique in assembling a broad spectrum of positions on the history of science by some of its leading representatives. Readers will find it illuminating to learn how prominent authors judge the current status and the future perspectives of their field. Students will find this volume helpful as a guide in a fragmented field that continues to be dominated by idiosyncratic expertise and that still lacks a methodical canon. The essays were written in response to our invitation to explicate the views of the authors concerning the state of the history of science today and the issues we felt are related to its future.

This book has been defined around three important issues: the first sheds light on how people, in various philosophical, religious, and political contexts, understand the natural environment, and how the relationship between the environment and the body is perceived; the second focuses on the perceptions that a particular natural environment is good or bad for human health and examines the reasons behind such characterizations ; the third examines the promotion, in history, of specific practices to take advantage of the health benefits, or avoid the harm, caused by certain environments and also efforts made to change environments supposed to be harmful to human health. The feeling and/or the observation that the natural environment can have effects on human health have been, and are still commonly shared throughout the world. This led us to raise the issue of the links observed and believed to exist between human beings and the natural environment in a broad chronological and geographical framework. In this investigation, we bring the reader from ancient and late imperial China to the medieval Arab world up to medieval, modern, and contemporary Europe. This book does not examine these relationships through the prism of the knowledge of our modern contemporary European experience, which, still too often, leads to the feeling of totally different worlds. Rather, it questions protagonists who, in different times and in different places, have reflected, on their own terms, on the links between environment and health and tries to obtain a better understanding of why these links took the form they did in these precise contexts. This book targets an academic readership as well as an "informed audience", for whom present issues of environment and health can be nourished by the reflections of the past.

Long before GPS, Google Earth, and global transit, humans traveled vast distances using only environmental clues and simple instruments. John Huth asks what is lost when modern technology substitutes for our innate capacity to find our way. Encyclopedic in breadth, weaving together astronomy, meteorology, oceanography, and ethnography, The Lost Art of Finding Our Way puts us in the shoes, ships, and sleds of early navigators for whom paying close attention to the environment around them was, quite literally, a matter of life and death. Haunted by the fate of two young kayakers lost in a fogbank off Nantucket, Huth shows us how to navigate using natural phenomena-the way the Vikings used the sunstone to detect polarization of sunlight, and Arab traders learned to sail into the wind, and Pacific Islanders used underwater lightning and "read" waves to guide their explorations. Huth reminds us that we are all navigators capable of learning techniques ranging from the simplest to the most sophisticated skills of direction-finding. Even today, careful observation of the sun and moon, tides and ocean currents, weather and atmospheric effects can be all we need to find our way. Lavishly illustrated with nearly 200 specially prepared drawings, Huth's compelling account of the cultures of navigation will engross readers in a narrative that is part scientific treatise, part personal travelogue, and part vivid re-creation of navigational history. Seeing through the eyes of past voyagers, we bring our own world into sharper view.

This book is the first extensive study of ideas on earthquakes before the Lisbon earthquake in 1755. The earthquake had a deep impact on European culture, and the reactions to it stood in a long tradition that, before this study, had yet to be explored in detail. Thinking on Earthquakes investigates both scholarly theories and views that were propagated among the early modern European population. Through a chronological approach, Vermij reveals that in contrast to the Ancient and medieval philosophers who suggested rational explanations for earthquakes, supernatural ideas made a powerful comeback in the sixteenth century. By analysing a variety of sources such as pamphlets, sermons, and treatises, this study shows how changes in the ideas on earthquakes were a result of social and political demands as well as from improvements in the means of communication, rather than from scientific methods. Thus, Vermij presents an illuminating case for the production of knowledge in early modern Europe. A range of events are explored, including the Ferrara earthquake in 1570 and the Vienna earthquake in 1590, making this study an invaluable source for students and scholars of the history of science and the history of ideas in early modern Europe.

A sonnet to science presents an account of six ground-breaking scientists who also wrote poetry, and the effect that this had on their lives and research. How was the universal computer inspired by Lord Byron? Why was the link between malaria and mosquitos first captured in the form of a poem? Whom did Humphry Davy consider to be an 'illiterate pirate'? Written by leading science communicator and scientific poet Dr Sam Illingworth, A sonnet to science presents an aspirational account of how these two disciplines can work together, and in so doing aims to convince both current and future generations of scientists and poets that these worlds are not mutually exclusive, but rather complementary in nature. -- .

Despite their apparent simplicity, the behaviour of pendulums can be remarkably complicated. Historically, pendulums for specific purposes have been developed using a combination of simplified theory and trial and error. There do not appear to be any introductory books on pendulums, written at an intermediate level, and covering a wide range of topics. This book aims to fill the gap. It is written for readers with some background in elementary geometry, algebra, trigonometry and calculus. Historical information, where available and useful for the understanding of various types of pendulum and their applications, is included. Perhaps the best known use of pendulums is as the basis of clocks in which a pendulum controls the rate at which the clock runs. Interest in theoretical and practical aspects of pendulums, as applied to clocks, goes back more than four centuries. The concept of simple pendulums, which are idealised versions of real pendulums is introduced. The application of pendulums to clocks is described, with detailed discussion of the effect of inevitable differences between real pendulums and simple pendulums. In a clock, the objective is to ensure that the pendulum controls the timekeeping. However, pendulums are sometimes driven, and how this affects their behaviour is described. Pendulums are sometimes used for occult purposes. It is possible to explain some apparently occult results by using modern pendulum theory. For example, why a ring suspended inside a wine glass, by a thread from a finger, eventually strikes the glass. Pendulums have a wide range of uses in scientific instruments, engineering, and entertainment. Some examples are given as case studies. Indexed in the Book Citation Index- Science (BKCI-S)

The philosopher Immanuel Kant writes in the popular introduction to his philosophy: "There is no single book about metaphysics like we have in mathematics. If you want to know what mathematics is, just look at Euclid's Elements." (Prolegomena Paragraph 4) Even if the material covered by Euclid may be considered elementary for the most part, the way in which he presents essential features of mathematics in a much more general sense, has set the standards for more than 2000 years. He displays the axiomatic foundation of a mathematical theory and its conscious development towards the solution of a specific problem. We see how abstraction works and how it enforces the strictly deductive presentation of a theory. We learn what creative definitions are and how the conceptual grasp leads to the classification of the relevant objects. For each of Euclid's thirteen Books, the author has given a general description of the contents and structure of the Book, plus one or two sample proofs. In an appendix, the reader will find items of general interest for mathematics, such as the question of parallels, squaring the circle, problem and theory, what rigour is, the history of the platonic polyhedra, irrationals, the process of generalization, and more. This is a book for all lovers of mathematics with a solid background in high school geometry, from teachers and students to university professors. It is an attempt to understand the nature of mathematics from its most important early source.

This biography gives an insider view of 20th century German science in the making. The discovery by Max von Laue in 1912 of interference effects demonstrated the wave-like nature of X-rays and the atomic lattice structure of crystals. This major advance for research on solids earned him the Nobel Prize two years later, the ultimate acclaim as an exceptional theoretician. As an early supporter of Einstein's relativity theory, he published fundamental papers on light scattering as well as on matter waves and superconductivity. Laue may be counted among the few persons of influence in Germany who - as Einstein put it - managed to "stay morally upright" under Nazism. It is thus surprising that this is the first extensive biography of this famous scientist. Jost Lemmerich could hardly have been better equipped to describe German physics and physicists in the 1920s. His copiously illustrated historical account is based as much on scientific material as on private correspondence, creating a fascinating and convincingly detailed portrait.

This volume explores the history of epidemiology from the mid-twentieth century to the present. Epidemiology has exerted major influence on the way that both infectious and chronic diseases are conceptualized and controlled, and, more generally, on the way that people in modern societies think about health, behavior, longevity, and risk. This collection consists of a series of in-depth analyses of the roots, development, and impact of epidemiological research, illuminating the complex relationship between medical research and data on the one hand, and social and cultural factors on the other. The thematical and geographical scope of the book ranges from indigenous and participant perspectives to the visualization of pandemics, and from Circumpolar North to East Africa. The book identifies significant historical changes and the driving forces behind them, charting forms of science-society interaction that characterize modern epidemiology. Chapter 1 and chapter 4 are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.

Using simple physical examples, this work by Erhard Scheibe presents an important and powerful approach to the reduction of physical theories. Novel to the approach is that it is not based, as usual, on a single reduction concept that is fixed once and for all, but on a series of recursively constructed reductions, with which all reductions appear as combinations of very specific elementary reductions. This leaves the general notion of theory reduction initially open and is beneficial for the treatment of the difficult cases of reduction from the fields of special and general relativity, thermodynamics, statistical mechanics,and quantum mechanics, which are treated in the second volume. The book is systematically organized and intended for readers interested in philosophy of science as well as physicists without deep philosophical knowledge.

The book retraces the history of the Italian Association of Theoretical and Applied Mechanics (AIMETA) since its establishment in 1965. AIMETA is the official Italian association of mechanics adhering to IUTAM (International Union of Theoretical and Applied Mechanics), which organizes and coordinates a meaningful number of research activities, the most important of which are the biennial National Congress and the internationally renowned journal "Meccanica", published by Springer. Besides collecting and organizing all related important data and information, as far as possible, by distinguishing among the five scientific areas - general mechanics, solids, structures, fluids, machines - encompassed by AIMETA, the history of the association is assumed as a proper perspective to overview the evolution of theoretical and applied mechanics in Italy over about the last fifty years. This is accomplished in the first part of the book. with also a specific focus on the mechanics of solids and structures, where the biographies of a meaningful number of recognized Italian scholars of mechanics in all areas are also provided, along with testimonials and memories by a few senior people meaningfully involved with AIMETA and Italian mechanics. The second part gives an account, although unavoidably incomplete, of recent developments of mechanical sciences in Italy, as reflected also in the activities of AIMETA and with reference to the international context. Contributions by a number of invited senior scholars, still very active, consist of overviews on some scientific themes in the various areas, summaries of achievements of research groups, expressions of research viewpoints, prospects for future developments.