Sinceits founding by Jacques Waardenburg in 1971, Religion and Reason has been a leading forum for contributions on theories, theoretical issues and agendas related to the phenomenon and the study of religion. Topics include (among others) category formation, comparison, ethnophilosophy, hermeneutics, methodology, myth, phenomenology, philosophy of science, scientific atheism, structuralism, and theories of religion. From time to time the series publishes volumes that map the state of the art and the history of the discipline.

By addressing the enigma of the exceptional success of Hungarian emigrant scientists and telling their life stories, Brilliance in Exile combines scholarly analysis with fascinating portrayals of uncommon personalities. Istvan and Balazs Hargittai discuss the conditions that led to five different waves of emigration of scientists from the early twentieth century to the present. Although these exodes were driven by a broad variety of personal motivations, the attraction of an open society with inclusiveness, tolerance, and - needless to say - better circumstances for working and living, was the chief force drawing them abroad. While emigration from East to West is a general phenomenon, this book explains why and how the emigration of Hungarian scientists is distinctive. The high number of Nobel Prizes among this group is only one indicator. Multicultural tolerance, a quickly emerging, considerably Jewish, urban middle class, and a very effective secondary school system were positive legacies of the Austro-Hungarian Monarchy. Multiple generations, shaped by these conditions, suffered from the increasingly exclusionist, intolerant, antisemitic, and economically stagnating environment, and chose to go elsewhere. "I would rather have roots than wings, but if I cannot have roots, I shall use wings," explained Leo Szilard, one of the fathers of the Atom Bomb.

Does Distance Tyrannize Science?.- Tyrannies of Distance in British Science.- Dr George Bennett and Sir Richard Owen: A Case Study of the Colonization of Early Australian Science.- A Far Frontier: British Geological Research in Australia during the Nineteenth Century.- A Collaborative Dimension of the European Empires: Australian and French Acclimatization Societies and Intercolonial Scientific Co-operation.- International Exchange in the Natural History Enterprise: Museums in Australia and the United States.- A World-wide Scientific Network and Patronage System: Australian and Other 'Colonial' Fellows of the Royal Society of London.- Ionospheric and Radio Physics in Australian Science since the Early Days.- Theories of the Earth as Seen from Below.- Geographic Isolation and the Origin of Species: The Migrations of Michael White.- Antipodal Fire: Bushfire Research in Australia and America.- Notes on Contributors.

In his study of Romantic naturalists and early environmentalists, Dewey W. Hall asserts that William Wordsworth and Ralph Waldo Emerson were transatlantic literary figures who were both influenced by the English naturalist Gilbert White. In Part 1, Hall examines evidence that as Romantic naturalists interested in meteorology, Wordsworth and Emerson engaged in proto-environmental activity that drew attention to the potential consequences of the locomotive's incursion into Windermere and Concord. In Part 2, Hall suggests that Wordsworth and Emerson shaped the early environmental movement through their work as poets-turned-naturalists, arguing that Wordsworth influenced Octavia Hill's contribution to the founding of the United Kingdom's National Trust in 1895, while Emerson inspired John Muir to spearhead the United States' National Parks movement in 1890. Hall's book traces the connection from White as a naturalist-turned-poet to Muir as the quintessential early environmental activist who camped in Yosemite with President Theodore Roosevelt. Throughout, Hall raises concerns about the growth of industrialization to make a persuasive case for literature's importance to the rise of environmentalism.

This work counters historiographies that search for the origins of modern science within the experimental practices of Europe 's first scientific institutions, such as the Cimento. It proposes that we should look beyond the experimental rhetoric found in published works, to find that the Cimento academicians were participants in a culture of natural philosophical theorising that existed throughout Europe.

This book offers a comprehensive study of the views of ancient philosophers on mental disorders. Relying on the original Greek and Latin textual sources, the author describes and analyses how the ancient philosophers explained mental illness and its symptoms, including hallucinations, delusions, strange fears and inappropriate moods and how they accounted for the respective roles of body and mind in such disorders. Also considered are ethical questions relating to mental illness, approaches to treatment and the position of mentally ill people in societies of the times.

The volume opens with a historical overview that examines ancient medical accounts of mental illness, from Hippocrates' famous Sacred Disease to late antiquity medical authors. Separate chapters interpret in detail the writings of Plato, Aristotle, Galen and the Stoics and a final chapter summarises the views of various strains of Scepticism, the Epicurean school and the Middle and Neo-Platonists.

Offering an important and useful contribution to the study of ancient philosophy, psychology and medicine. This volume sheds new light on the history of mental illness and presents a new angle on ancient philosophical psychology.

twentieth-century literature about the distinction between explanation and und- standing)? Second, can we do justice to a particular writer's notion of that category by taking at face value what he writes about his own motivation for adopting it? In response to both types of questions, there is by now a consensus amongst many historians of science and of philosophy that (a) intellectual history - like other kinds of history - has to be careful not to uncritically adopt actors' categories, and (b) more generally, even the actors' own thinking about a particular issue has to be contextualized vis-a-vis their other intellectual commitments and interests, as well as the complex conditions that make the totality of their commitments possible. Such conditions include cognitive as well as practical, institutional, and cultural factors. The articles in this volume respond to these challenges in several ways. For example, one author (Christopher Pincock) seeks to read some of the nineteen- century philosophical writings about Erklaren and Verstehen as standing for a more fundamental problem, which he terms the problem of the "unity of experience.""

This book provides an overview of the origins and evolution of the periodic system from its prehistory to the latest synthetic elements and possible future additions. The periodic system of the elements first emerged as a comprehensive classificatory and predictive tool for chemistry during the 1860s. Its subsequent embodiment in various versions has made it one of the most recognizable icons of science. Based primarily on a symposium titled "150 Years of the Periodic Table" and held at the August 2019 national meeting of the American Chemical Society, this book describes the origins of the periodic law, developments that led to its acceptance, chemical families that the system struggled to accommodate, extension of the periodic system to include synthetic elements, and various cultural aspects of the system that were celebrated during the International Year of the Periodic Table.

In this comprehensive and interdisciplinary volume, former NASA Chief Historian Steven Dick reflects on the exploration of space, astrobiology and its implications, cosmic evolution, astronomical institutions, discovering and classifying the cosmos, and the philosophy of astronomy. The unifying theme of the book is the connection between cosmos and culture, or what Carl Sagan many years ago called the "cosmic connection." As both an astronomer and historian of science, Dr. Dick has been both a witness to and a participant in many of the astronomical events of the last half century. This collection of papers presents his reflections over the last forty years in a way accessible to historians, philosophers, and scientists alike. From the search for alien life to ongoing space exploration efforts, readers will find this volume full of engaging topics relevant to science, society, and our collective future on planet Earth and beyond.

The articles in this collection were all selected from the first five volumes of the Journal of Dialectics of Nature published by the Chinese Academy of Sciences between 1979 and 1985. The Journal was established in 1979 as a comprehensive theoretical publication concerning the history, philosophy and sociology of the natural sciences. It began publication as a response to China's reform, particularly the policy of opening to the outside world. Chinese scholars began to undertake distinctive, original research in these fields. This collection provides a cross-section of their efforts during the initial phase. To enable western scholars to understand the historical process of this change in Chinese academics, Yu Guangyuan's On the Emancipation of the Mind' and Xu Liangying's Essay on the Role of Science and Democracy in Society' have been included in this collection. Three of the papers included on the philosophy of science are discussions of philosophical issues in cosmology and biology by scientists themselves. The remaining four are written by philosophers of science and discuss information and cognition, homeostasis and Chinese traditional medicine, the I Ching (Yi Jing) and mathematics, etc. Papers have been selected on the history of both classical and modern science and technology, the most distinctive of which are macro-comparisons of the development of science in China and the west. Some papers discuss the issue of the demarcation of periods in the history of science, the history of ancient Chinese mathematics, astronomy, metallurgy, machinery, medicine, etc. Others discuss the history of modern physics and biology, the history of historiography of science in China and thehistory of regional development of Chinese science and technology. Also included are biographies of three post-eighteenth-century Chinese scholars, Li Shanlan (1811-1882), Hua Hengfang (1833&endash;1902), and Cai Yuanpei (1868&endash;1940), who contributed greatly to the introduction of western science and scholarship to China. In addition, three short papers have been included introducing the interactions between Chinese scholars and three great western scientists, Niels Bohr, Norbert Wiener, and Robert A. Millikan.

Here, for the first time, is a single volume in English that contains all the important historical essays Edgar Zilsel (1891-1944) published during WWII on the emergence of modern science. It also contains one previously unpublished essay and an extended version of an essay published earlier. This volume is unique in its well-articulated social perspective on the origins of modern science and is of major interest to students in early modern social history/history of science, professional philosophers, historians, and sociologists of science.

and less as the emanation unden\'ent radioactive decay, and it became motion less after about 30 seconds. Since this process was occurring very rapidly, Hahn and Sackur marked the position of the pointer on a scale with pencil marks. As a timing device they used a metronome that beat out intervals of approximately 1. 3 seconds. This simple method enabled them to determine that the half-life of the emanations of actinium and emanium were the same. Although Giesel's measurements had been more precise than Debierne's, the name of actinium was retained since Debierne had made the discovery first. Hahn now returned to his sample of barium chloride. He soon conjectured that the radium-enriched preparations must harbor another radioactive sub stance. The liquids resulting from fractional crystallization, which were sup posed to contain radium only, produced two kinds of emanation. One was the long-lived emanation of radium, the other had a short life similar to the emanation produced by thorium. Hahn tried to separate this substance by adding some iron to the solutions that should have been free of radium, but to no avail. Later the reason for his failure became apparent. The element that emitted the thorium emanation was constantly replenished by the ele ment believed to be radium. Hahn succeeded in enriching a preparation until it was more than 100,000 times as intensive in its radiation as the same quantity of thorium."

In this book of reminiscences, this prize-winning Russian physicist presents a sweeping discourse on scientific achievement from the thirties to the present day. On the basis of his own work and that of leading international scientists such as P. L. Kapitza, L. Landau, R. Feynman and J. Bardeen, the author recounts the establishment and development of the superfluidity of liquid helium and quantum hydrodynamics. In an interesting and readable style, E. L. Andronikashvili speaks of the scientific quest and the human interrelationships that accompany scientific creativity. For historians of science and physicists.

As a transnational history of science, Japan's Empire of Birds: Aristocrats, Anglo-Americans, and Transwar Ornithology focuses on the political aspects of highly mobile Japanese explorer-scientists, or cosmopolitan gentlemen of science, circulating between Japanese and British/American spaces in the transwar period from the 1920s to 1950s. Annika A. Culver examines a network of zoologists united by their practice of ornithology and aristocratic status. She goes on to explore issues of masculinity and race related to this amidst the backdrop of imperial Japan's interwar period of peaceful internationalism, the rise of fascism, the Japanese takeover of Manchuria, and war in China and the Pacific. Culver concludes by investigating how these scientists repurposed their aims during Japan's Allied Occupation and the Cold War. Inspired by geographer Doreen Massey, themes covered in the volume include social space and place in these specific locations and how identities transform to garner social capital and scientific credibility in transnational associations and travel for non-white scientists.

From the Preface: "This book was written for the active reader. The first part consists of problems, frequently preceded by definitions and motivation, and sometimes followed by corollaries and historical remarks... The second part, a very short one, consists of hints... The third part, the longest, consists of solutions: proofs, answers, or contructions, depending on the nature of the problem....

This is not an introduction to Hilbert space theory. Some knowledge of that subject is a prerequisite: at the very least, a study of the elements of Hilbert space theory should proceed concurrently with the reading of this book."

This book is the latest volume in the highly successful series "Comprehensive Biochemistry." It provides a historical and autobiographical perspective of the developments in the field through the contributions of leading individuals who reflect on their careers and their impact on biochemistry. Volume 46 is essential reading for everyone from graduate student to professor, placing in context major advances not only in biochemical terms but in relation to historical and social developments. Readers will be delighted by the lively style and the insight into the lives and careers of leading scientists of their time.
* Contributors are distinguished scientists in the field
* Unique series of personal recollections
* Presents scientific research in a historical perspective

Viewed as a flashpoint of the Scientific Revolution, early modern astronomy witnessed a virtual explosion of ideas about the nature and structure of the world. This study explores these theories in a variety of intellectual settings, challenging our view of modern science as a straightforward successor to Aristotelian natural philosophy. It shows how astronomers dealt with celestial novelties by deploying old ideas in new ways and identifying more subtle notions of cosmic rationality. Beginning with the celestial spheres of Peurbach and ending with the evolutionary implications of the new star Mira Ceti, it surveys a pivotal phase in our understanding of the universe as a place of constant change that confirmed deeper patterns of cosmic order and stability.

Sinceits founding by Jacques Waardenburg in 1971, Religion and Reason has been a leading forum for contributions on theories, theoretical issues and agendas related to the phenomenon and the study of religion. Topics include (among others) category formation, comparison, ethnophilosophy, hermeneutics, methodology, myth, phenomenology, philosophy of science, scientific atheism, structuralism, and theories of religion. From time to time the series publishes volumes that map the state of the art and the history of the discipline.

The present work represents a unique undertaking in scientific publishing to honor Nick Metropolis, who passed away in October, 1999. Nick was the last survivor of the Manhattan Project that began during World War II in Los Alamos and later became the Los Alamos National Laboratory. In this volume, some of the leading scientists and humanists of our time have contributed essays related to their respective disciplines exploring various aspects of future developments in science, technology, and society. Speculations on the future developments of science and society, philosophy, national security, nuclear power, pure and applied mathematics, physics and biology, particle physics, computing, information science, among many others, are included. Contributors include: H. Agnew * R. Ashenhurst * K. Baclawski * G. Baker * N. Balazs * J.A. Freed * R. Hamming * M. Hawrylycz * O. Judd * D. Kleitman * M. Krieger * N. Krikorian * P. Lax * J.D. Louck * T. Puck * M. Raju * R. Richtmyer * J. Schwartz * R. Sokolowski * E. Teller * M. Waterman

This book introduces a refreshing approach to twenty-first-century scientific approach in an age, which is also known as the Century of Complexity. It deals with the deep problem of complexity, being operative from the bottom-up. The current lack of understanding of complexity has led scholars into the so-called embarrassment of complexity. A long overdue paradigm shift is necessary to address complexity as generative complexity and brings readers to the edge of a scientific revolution: that is, a generative revolution in the Century of Complexity. The book offers a radical shift of paradigm from the paradigm of simplifying into the new generative paradigm of complexifying about processes that develop from the bottom-up. The book links complex generative reality with a corresponding radical new generative nature of order and explores new fronts in science. This book explores innovative concepts of interaction, of causality, of the unit of study, and of reality itself and enables readers to see complexity as generative, emergent complexity as being operative from the bottom-up. The book discusses and suggests solutions for the problem of complexity in this Century of Complexity. The author provides a new understanding of complexity based on a generative flux of forces and relations. The book aims to bring about a fundamental and foundational change in how we view and 'do' science for an interdisciplinary audience of academics ranging from social science and humanities to economy and biology.

To attempt to compile a relatively complete bibliography of the theory of functions of a real variable with the requisite bibliographical data, to enumer ate the names of the mathematicians who have studied this subject, exhibit their fundamental results, and also include the most essential biographical data about them, to conduct an inventory of the concepts and methods that have been and continue to be applied in the theory of functions of a real variable ... in short, to carry out anyone of these projects with appropriate completeness would require a separate book involving a corresponding amount of work. For that reason the word essays occurs in the title of the present work, allowing some freedom in the selection of material. In justification of this selection, it is reasonable to try to characterize to some degree the subject to whose history these essays are devoted. The truth of the matter is that this is a hopeless enterprise if one requires such a characterization to be exhaustively complete and concise. No living subject can be given a final definition without provoking some objections, usually serious ones. But if we make no such claims, a characterization is possible; and if the first essay of the present book appears unconvincing to anyone, the reason is the personal fault of the author, and not the objective necessity of the attempt."

This book is an informal autobiography by John West MD PhD. He obtained his medical degree in Adelaide, Australia and then spent 15 years mainly at the Royal Postgraduate Medical School, Hammersmith Hospital in London where he, with others, used radioactive oxygen-15 to make the first description of the uneven regional distribution of blood flow in the lung. In 1960-1961, he was a member of the Himalayan Scientific and Mountaineering Expedition led by Sir Edmund Hillary who had made the first ascent of Mt Everest 7 years before. During the expedition about 6 scientists spent up to three months at an altitude of 5800 m studying the effects of this very high altitude on human physiology. Because of his interests in the effects of gravity on the lung, Dr. West spent a year at the NASA Ames Research Center in Mountain View, California in 1967-1968. While there he submitted a proposal to NASA to measure pulmonary function of astronauts in space, and this was funded. Later, in 1981 he organized the American Medical Research Expedition to Everest during which the first measurements of human physiology on the summit, altitude 8848 m, were obtained. In the 1990's, Dr. West's team made the first comprehensive measurements of pulmonary function of astronauts in space using SpaceLab which was taken up in the Shuttle.

invoking the fluctuation-dissipation theorems of Einstein and 2 more recently those of Callen and Kubo in order to get to manageable results. In this manner, great strides have been made in the development of the many-body problem without reaching the necessity to legitimize thermodynamics. Ther modynamics and statistical mechanics were used successful ly as bridges and guides to get the new ideas to conform to the macroscopic experiences (measurements). Hence the dis 3 interest of theoreticians. The frustration in attracting the at tention of the working physicists on this problem is vividly described in Carnap's (1978) account on the reception of his ideas and efforts at the Institute of Advanced Studies at Prin ceton where he worked on the Two Essays on Entropy; it al most amounted, he thought, to a conspiracy of silence. The priorities of theoretical physicists remain with the puzzles and the cranking at hand: Quantum Field Theory (QFT) and "creation and annihilation" physics, solid state physics, - to mention only a few research areas - command the attention of those working on the research frontiers. Thermodynamics is taken for granted and is thought to be an almost depleted research area. Whatever the subterfuges, the hand-waving arguments, the paedagogical red herrings, the procedures work and nothing can be gained by allocating intellectual re sources to resolve ambiguities with few, if any, expected rewards. Down deep, all believe that the regularization of the field will one day be accomplished."