The papers contained in this volume were presented at the Nobel Symposium which marked the eightieth anniversary of the first award of the Nobel prizes in 1901. Leading scholars from many different fields of science and technology exchange viewpoints across interdisciplinary boundaries. Participants were chosen for their special knowledge of science and technology in the late nineteenth and early twentieth centuries and papers cover the period from the 1860s to the outbreak of the First World War.
The Nobel Prizes have long been the most prestigious awards in the world of science. Established according to the wishes expressed in the will of Alfred Nobel (1895), the annual awards began in 1901. The Nobel Archives preserve the detailed study of the inner workings of the prize committees, and the archival documents, available for historical research since 1974, open the door to important new scholarship in the history and sociology of the prizes. Elisabeth Crawford was one of the first to gain access to the Nobel Archives at the Royal Swedish Academy of Sciences and in this book she analyzes the early history of the prizes in physics and chemistry. Crawford sets out in detail the story of the intricate inner workings of the process whereby the prizewinners were selected. A fascinating picture of the contemporary international scientific establishment emerges, one shedding light on how the developing Nobel institution became enmeshed in speciality and other networks, notably those of Arrhenius and Mittag-Leffler, the two Swedish scientists who were best known internationally at the time. While the general development of disciplines and the standing of scientists in international and national communities heavily influenced the selection process, the cases presented in this book show that the specific choices of specialities, discoveries, and people to be honored were determined by the Swedish participants in the process. The question of how, after some initial uncertainties, the Nobel Prizes became synonymous with the highest achievements in science and culture is also addressed. This detailed study of the birth of what have become science's highest accolades will interest historians and scientists alike.
In three volumes, a distinguished group of scholars from a variety of disciplines in the natural and social sciences, the humanities and the arts contribute essays in honor of Robert S. Cohen, on the occasion of his 70th birthday. The range of the essays, as well as their originality, and their critical and historical depth, pay tribute to the extraordinary scope of Professor Cohen's intellectual interests, as a scientist-philosopher and a humanist, and also to his engagement in the world of social and political practice. The essays presented in Physics, Philosophy, and the Scientific Community (Volume I of Essays in Honor of Robert S. Cohen) focus on philosophical and historical issues in contemporary physics: on the origins and conceptual foundations of quantum mechanics, on the reception and understanding of Bohr's and Einstein's work, on the emergence of quantum electrodynamics, and on some of the sharp philosophical and scientific issues that arise in current scientific practice (e.g. in superconductivity research). In addition, several essays deal with critical issues within the philosophy of science, both historical and contemporary: e.g. with Cartesian notions of mechanism in the philosophy of biology; with the language and logic of science - e.g. with new insights concerning the issue of a `physicalistic' language in the arguments of Neurath, Carnap and Wittgenstein; with the notion of `elementary logic'; and with rational and non-rational elements in the history of science. Two original contributions to the history of mathematics and some studies in the comparative sociology of science round off this outstanding collection.
The Reader's Guide to the History of Science looks at the literature of science in some 550 entries on individuals (Einstein), institutions and disciplines (Mathematics), general themes (Romantic Science) and central concepts (Paradigm and Fact). The history of science is construed widely to include the history of medicine and technology as is reflected in the range of disciplines from which the international team of 200 contributors are drawn.
Discusses the Nobel Institution in detail, telling about the award and its beginnings, what it means to win a Nobel Prize, the fields in which it is presented, who judges and how the prize is awarded, and more.
* A descriptive and analytical guide to the development of Western science from AD 1500, and to the diversity and course of that development first in Europe and later across the world * Presented in clear, non-technical language * Extensive indexes of Subjects and Names `Indeed a companion volume whose 67 essays give pleasure and instruction ... an ambitious and successful work.' - Times Literary Supplement `This work is an essential resource for libraries everywhere. For specialist science libraries willing to keep just one encyclopaedic guide to history, for undergraduate libraries seeking to provide easily accessible information, for the devisers of university curricula, for the modern social historian or even the eclectic scientist taking a break from simply making history, this is the book for you.' - Times Higher Education Supplement `A pleasure to read with a carefully chosen typeface, well organized pages and ample margins ... it is very easy to find one's way around. This is a book which will be consulted widely.' - Technovation `This is a commendably easy book to use.' - British Journal of the History of Science `Scholars from other areas entering this field, students taking the vertical approach and teachers coming from any direction cannot fail to find this an invaluable text.' - History of Science Journal
Overlooked, even despised by historians of chemistry for many years, the genre of biography has enjoyed a revival since the beginning of this century. The key to its renaissance is the use of the biographical form to provide a contextual analysis of important themes in contrast to the uncritical, almost hagiographic, lives of chemists written in the earlier part of the twentieth century. Bringing together the contributions of scholars active in several different countries, Perspectives on Chemical Biography in the 21st Century leads the reader through emerging questions around sources, and the generic problems faced by authors of biographies, before moving on to discuss aspects more related with physical, theoretical and inorganic chemistry, and facets of 19th century chemistry. In contrast to the letters and diaries of earlier chemists, we are now faced with scientists who communicate by telephone and email, and compose their documents on computers. Are we facing a modern equivalent of the destruction of the Library of Alexandria where all our sources are wiped out electronically?
Scientific Elite is about Nobel prize winners and the well-defined stratification system in twentieth-century science. It tracks the careers of all American laureates who won prizes from 1907 until 1972, examining the complex interplay of merit and privilege at each stage of their scientific lives and the creation of the ultra-elite in science. The study draws on biographical and bibliographical data on laureates who did their prize-winning research in the United States, and on detailed interviews with forty-one of the fifty-six laureates living in the United States at the time the study was done. Zuckerman finds laureates being successively advantaged as time passes. These advantages are producing growing disparities between the elite and other scientists both in performance and in rewards, which create and maintain a sharply graded stratification system.
Through new perspectives from a mix of original monographs, biographies, autobiographical memoirs, edited collections of essays and documentary sources, translations, classic reprints, and pictorial volumes, this series will document the individuals, ideas, institutions, and innovations that have created the modern chemcial sciences.