The first A–Z resource on the history of science from 1900 to 1950 examining the dynamic between science and the social, political, and cultural forces of the era. Though many books have highlighted the great scientific discoveries of the early 1900s, few have tackled the wider context in which these milestones were achieved. Science in the Early Twentieth Century covers everything from quantum physics to penicillin and more, including all the major scientific developments of the period, detailing not only the scientists and their work, but also the social and political forces that dominated the scientific agenda. Over 200 A–Z entries chronicle the landmark scientific discoveries and personalities of the period, including such scientific giants as Albert Einstein and Marie Curie. Placing science firmly within its cultural context, this thoroughly researched, accessible resource takes a uniquely interdisciplinary approach, making it an invaluable text for scientists, educators, students, and the general reader.

These essays offer scholars, teachers, and students a new basis for discussing attitudes toward, and technological expertise concerning, water in antiquity through the early Modern period, and they examine historical water use and ideology both diachronically and cross regionally. Topics include gender roles and water usage; attitudes, practices, and innovations in baths and bathing; water and the formation of identity and policy; ancient and medieval water sources and resources; and religious and literary water imagery. The authors describe how ideas about the nature and function of water created and shaped social relationships, and how religion, politics, and science transformed, and were themselves transformed by, the manipulation of, uses of, and disputes over water in daily life, ceremonies, and literature. Contributors are Rabun Taylor, Sandra Lucore, Robert F. Sutton, Jr., Cynthia K Kosso, Kevin Lawton, Evy Johanne Haland, Helene Cazes, Alexandra Cuffel, Mark Munn, Brenda Longfellow, Gretchen Meyers, Sara Saba, Scott John McDonough, Etienne Dunant, E. J. Owens , Mehmet Taslialan, Deborah Chatr Aryamontri, John Stephenson, Lin A. Ferrand, Paul Trio, Anne Scott, Misty Rae Urban, Ruth Stevenson, Charles Connell, Alyce Jordan, Ronald Cooley, and Irene Matthews.

Rather than treating the Great Awakening and the Enlightenment as defining opposites in 18th century American culture, this study argues that the imperatives of the great revival actually shaped the pursuit of enlightened science. Reid-Maroney traces the interwoven histories of the two movements by reconstructing the intellectual world of the Philadelphia circle. Prophets of the Enlightenment had long tried to resolve pressing questions about the limitations of human reason and the sources of our knowledge about the created order of things. The leaders of the Awakening addressed those questions with a new urgency and, in the process, determined the character of the Enlightenment emerging in Philadelphia's celebrated culture of science.

Tracing the influence of evangelical sensibility and the development of a Calvinist parallel to the philosophical skepticism of enlightened Scots, Reid-Maroney finds that the Philadelphians' love of science rested on a radical critique of human reason, even while it acknowledged that reason was the dignifying and distinguishing property of human nature. Benjamin Rush alluded to an enlightenment wrought by grace in his image of the Kingdom of Christ and the Empire of Reason. In the post-Revolutionary period, the redemptive Enlightenment of the Philadelphia circle reached its greatest cultural power as a vision for scientific progress in the new republic.

Written by one of the astronomers who 'lived the dream' of working there this book is a restrospectively expanded diary featuring the 'birth and long life' of what was a truely innovative telescope. Based on input received from people involved in its planning, building, operation, and many scientists who observed with it, the author tells this success story of The United Kingdom Infrared Telescope (UKIRT). Conceived in the mid 1970's as a cheap and cheerful light-bucket for the newly emerging field of infrared astronomy it has re-invented itself once a decade to remain at the forefront of infrared astronomy for more than 30 years. Even in 2012 / 2013, when ironically it faced almost certain closure, it remained one of the most scientifically productive telescopes in the world. Everybody, including amateur and professional astronomers, interested in real astronomy projects will enjoy reading that story and meet (again) the persons who lived it.

Charles Dupin was a multifaceted figure in the history of France, where his life spanned several regimes. He produced an enormous number of publications in mathematics, engineering, economics, and education. Long neglected by historians, he is at last beginning to receive attention. In his youth, he championed many causes, including the education of women, perhaps because of the influence of his dynamic and learned mother. He was already very ambitious as a youth and left behind the usual youthful desires in pursuit of his goals. Dupin began as a brilliant mathematician as a student at the Ecole polytechnique in Paris and proceeded to become a fine naval engineer, that is until visits to Britain inspired him to change his course of direction. As the French industry was undergoing expansion, Dupin saw in Britain that workers were more efficient and healthier if they were educated. He greatly admired the freedom he witnessed in Britain, and this did not endear him to the French government of the Restoration. Indeed, the high honours to which he so much aspired eluded him for a considerable time. He saw the British savings banks and regular saving by workers within industry as a system to be introduced in France and one that should be propagated. As an economist, he considered the welfare of French workers as vital to an efficient industry. He was particularly concerned with the protection of children in work and the education of workers. In fact, he might be considered the father of workers' education in France. This was a subject very close to his heart and, from his early years, he devoted himself to making public lectures available to all, including women. However, Dupin's popularity declined as the importance of a thriving economy began to take precedence over the workers' needs, with the workers focusing mainly on having a living wage. This is the first published study of Charles Dupin and his entire life's work. It illuminates his work and contribution in so many spheres, as well as his contacts with other scientists and educators. His mathematics have long interested scholars in the field, and he would have been an outstanding naval engineer. He was a linguist and highly cultured; with his aesthetic sense he might well have rivaled San, but because of his driving ambition he was a great man manqu . Against a background of tremendous changes in France, he made important contributions in many areas, as evidenced by the bibliography in this book. This work will be of interest to mathematicians, historians of science, sociologists, economists, engineers, and educators.

What are we doing on planet earth? Why are we here? Did we evolve? Or, are we created? Many of us, as we age, don't so easily accept many philosophies and teachings about life. We come to realize the degree to which truth is bent and shaped by special interests in social, political, and religious affairs. After 40 years in the making, In Search of Destiny brings to you a gripping scientific and spiritual search for human destiny. Are we here to just be born, grow old, and die on planet earth? Or, is there evidence beyond this? In Search of Destiny draws a decisive conclusion.

""God made the universe simplistic; man made the understanding of the universe complicated." "The modern world has so many theories-so many voices expounding on how the universe began, how it works, and how it may end-it's no wonder there is mass confusion that can end in miscommunication, hatred, and war. On deeper examination of the facts, however, we find that all these theories and voices have more in common than they believe. In "The Summation of Elohim, " author Deick Conrad Williams simplifies and unifies societal beliefs of science and spirituality-the beliefs of our civilization-and shows how understanding our universe on a new level helps us understand our relationship to God, to each other, and to ourselves.Williams, a philosopher and mathematician who has devoted his life to studying the workings of the universe though the lens of numerous disciplines, first explores the universe's beginnings, the advent of humanity, and how organized religion allowed civilization to flourish. Then, with minimal mathematical equations and ample analogies to modern life, Williams offers fresh, valuable insights on the algorithms governing our universe-and the chaos inherent to its existence. From exploring the chakras and how to produce multiple orgasms to the Freudian id manifest in the seven deadly sins, "The Summation of Elohim" takes an enlightening journey toward understanding our universe and our vital role within it.

The modern world has so many theories-so many voices expounding on how the universe began, how it works, and how it may end-it's no wonder there is mass confusion that can end in miscommunication, hatred, and war. On deeper examination of the facts, however, we find that all these theories and voices have more in common than they believe. In "The Summation of Elohim," author Deick Conrad Williams simplifies and unifies societal beliefs of science and spirituality-the beliefs of our civilization- and shows how understanding our universe on a new level helps us understand our relationship to God, to each other, and to ourselves.

Williams, a philosopher and mathematician who has devoted his life to studying the workings of the universe though the lens of numerous disciplines, first explores the universe's beginnings, the advent of humanity, and how organized religion allowed civilization to flourish. Then, with minimal mathematical equations and ample analogies to modern life, Williams offers fresh, valuable insights on the algorithms governing our universe-and the chaos inherent to its existence.

From exploring the chakras and how to produce multiple orgasms to the Freudian id manifest in the seven deadly sins, "The Summation of Elohim" takes an enlightening journey toward understanding our universe and our vital role within it.

This volume explores problems in the history of science at the intersection of life sciences and agriculture, from the mid-eighteenth to the mid-twentieth century. Taking a comparative national perspective, the book examines agricultural practices in a broad sense, including the practices and disciplines devoted to land management, forestry, soil science, and the improvement and management of crops and livestock. The life sciences considered include genetics, microbiology, ecology, entomology, forestry, and deal with US, European, Russian, Japanese, Indonesian, Chinese contexts. The book shows that the investigation of the border zone of life sciences and agriculture raises many interesting questions about how science develops. In particular it challenges one to re-examine and take seriously the intimate connection between scientific development and the practical goals of managing and improving - perhaps even recreating - the living world to serve human ends. Without close attention to this zone it is not possible to understand the emergence of new disciplines and transformation of old disciplines, to evaluate the role and impact of such major figures of science as Humboldt and Mendel, or to appreciate how much of the history of modern biology has been driven by national ambitions and imperialist expansion in competition with rival nations.

In the Foreword to Culture and Agriculture, distinguished anthropologist John W. Bennett writes Dr. Schusky's book is welcome. It marks a point of maturity for anthropology's interest in agriculture, a distillation of decades of research and thought on the most important survival task facing humankind, the production of food. Although applauded by a specialist in the field, Schusky's book is specifically written for the general reader who is interested in agriculture. It offers a historical overview of the two major periods of agriculture--the Neolithic Revolution, which occurred when humans initally domesticated plants and animals, and the Neoclaric Revolution, which began the introduction of fossil fuel into agriculture in the twentieth century. Culture and Agriculture dramatizes the extensive changes that are occurring in modern agriculture due to the intensified use of fossil energy. The book details how the overdependence on fossil energy, with its looming exhaustion, is a major cause of pessimism about food production. The book also addresses the possible solutions to this scenario--conservation steps, an increase in the mix of solar energy, and an emphasis on human labor--which hold out hope for the future. Part I introduces the discovery or domestication of plants and animals (the Neolithic), along with the later use of irrigation, in order to show that most agricultural development, until the twentieth century, occurred between 5,000 and 10,000 years ago. Part II presents a brief survey of agricultural history which demonstrates that hunger had more to do with inequity in the social system than in the amounts of food produced. Agricultural history also emphasizes how little change occurred in agriculture from 5,000 years ago until the twentieth century, when the use of fossil energy revolutionized food production. In assessing the future of agricultural development, Schusky underscores the importance of economic and political policies that emphasize equity in distribution of wealth and government services. This book should appeal to the general reader interested in agriculture, rural sociology, or anthropology.

A fascinating look at the historical relationship between environmental issues and scientific study, social attitudes, and public policy from the 17th century to the present. The Environment and Science: Social Impact and Interaction explores the history of how science investigates nature and how those studies both shape and are shaped by the social attitudes, philosophies, and politics of their times. It follows the changes in perceptions of the natural world and humankind's place in it from the European colonization of North America through the Industrial Revolution and westward expansion, to the rise of the consumer economy and the recent hardening of the ideological battle lines over environmental policy. Coverage includes the emergence of ecology as a science and conservation as a movement, the long history of conflicts between business interests and environmentalists, and the role of scientific studies in debates over atomic and nuclear power, pesticides, toxic emissions, and other human-made sources of environmental degradation. Biographical sketches of major contributors to the study of human/environment interaction, including Carolus Linnaeus, Henry David Thoreau, Charles Darwin, Rachel Carson, and Barry Commoner Primary source documents from key environmental writers

No rational mind - given the evidence of buttons and buttonholes in an article of clothing - would deny that both "intelligence" and "design" played roles in the fabrication of such a garment, but - mystery of mysteries - the brightest and most educated in our culture, reject such considerations for all the infinitely more complex living organisms, insisting (dogmatically) that they somehow "evolved" by haphazard, sequential, random mutations. A challenge is therefore, proposed - to anyone anti-"Intelligent Designer," who believes he has not been "brain-washed," but who has at least a "hair-line crack" to open-mindedness - to refute the material herein - the non-factuality and astronomical improbabilities of pure random-chance-mutations of individual elements (among the multi-billions in the DNA helix) as a credible belief system in explaining: the spider, butterfly, or bacterium flagellum (Pajaro Dunes Micro-Biology Conference - scientists challenging Darwinism); male-female sexuality feelings: irresistible sex-drive before; gratification after - evoking propagation and proliferation of mammalian species; the (simple, yet ever so complex) umbilical cord concept for mammals - from kittens to humans? This book is a scholarly review (in layman terms) of all pertinent aspects of Science versus Bible in all applicable fields: Archaeology, Astronomy, Biology, Cosmology, Egyptology, Paleontology, Physics, etc., with over 300 references to the arcane writings of world-class scientists, historians, mathematicians and adventurers.

Hermann Haken (born 1927) is one of the "fathers" of the quantum-mechanical laser theory, formulated between 1962 and 1966, in strong competition with American researchers. Later on, he created Synergetics, the science of cooperation in multicomponent systems. The book concentrates on the development of his scientific work during the first thirty-five years of his career. In 1970 he and his doctoral student Robert Graham were able to show that the laser is an example of a nonlinear system far from thermal equilibrium that shows a phase-transition like behavior. Subsequently, this insight opened the way for the formulation of Synergetics. Synergetics is able to explain, how very large systems show the phenomenon of self-organization that can be mathematically described by only very few order parameters. The results of Haken's research were published in two seminal books Synergetics (1977) and Advanced Synergetics (1983). After the year 1985 Haken concentrated his research on the macroscopic foundation of Synergetics. This led him towards the application of synergetic principles in medicine, cognitive research and, finally, in psychology. A comprehensive bibliography of Hermann Haken's publications (nearly 600 numbers) is included in the book.

Recounting the compelling story of a scientific discovery that took more than a century to complete, this trail-blazing monograph focuses on methodological issues and is the first to delve into this subject. This book charts how the biochemical and biophysical mechanisms of photosynthesis were teased out by succeeding generations of scientists, and the author highlights the reconstruction of the heuristics of modelling the mechanism-analyzed at both individual and collective levels. Photosynthesis makes for an instructive example. The first tentative ideas were developed by organic chemists around 1840, while by 1960 an elaborate proposal at a molecular level, for both light and dark reactions, was established. The latter is still assumed to be basically correct today. The author makes a persuasive case for a historically informed philosophy of science, especially regarding methodology, and advocates a history of science whose narrative deploys philosophical approaches and categories. She shows how scientists' attempts to formulate, justify, modify, confirm or criticize their models are best interpreted as series of coordinated research actions, dependent on a network of super- and subordinated epistemic goals, and guided by recurrent heuristic strategies. With dedicated chapters on key figures such as Otto Warburg, who borrowed epistemic fundamentals from other disciplines to facilitate his own work on photosynthesis, and on more general topics relating to the development of the field after Warburg, this new work is both a philosophical reflection on the nature of scientific enquiry and a detailed history of the processes behind one of science's most important discoveries.

Based on newly available documents and others translated for the first time, physician Nicholas Kadar sheds important new light on the thinking of the celebrated Hungarian doctor Ignaz Semmelweis (1818-1865) at the Vienna School of Medicine, where he discovered the cause and prophylaxis of childbed fever, one of the greatest findings in the history of medicine. Drawing a portrait of an era open to the possibilities of antiseptics – vitally important in a world facing Covid-19, Kadar explodes the opposition Semmelweis faced from his contemporaries and explains many aspects of Semmelweis’s hitherto unexplained actions. Kadar’s detailed study demonstrates that supposed champions of Semmelweis’s work destroyed his career prospects in Vienna, and did more harm to his highly effective medical doctrine than any of proclaimed opponents ever did. Step by step, Kadar traces the presuppositions and the deductive logic that led Semmelweis to his discovery of the cause and prophylaxis of childbed fever, giving it proper place in the history of medicine.

This book complements available one-make books on domestic synchronous clocks. It is also a history of science book that sets British domestic synchronous clocks, their manufacturers and technology in their social context. Part I covers the historical background, British domestic synchronous clock manufacturers and brands, how synchronous clocks work, domestic synchronous clock cases, practical advice on the servicing of domestic synchronous clocks and analysis of the marketing and reliability of British domestic synchronous clocks. This analysis provides an explanation of the rise and eventual fall of their technology. Part II contains galleries of a selection of British domestic synchronous clocks and of the movements with which they are fitted. There is a front and back view of each clock, together with a brief description. Views of each movement include views with the movement partly dismantled, together with a brief technical description of the movement. This profusely illustrated book is primarily for fellow enthusiasts and is based on an extensive archive of information on domestic synchronous clocks, their movements and their manufacturers. Current electrical regulations mean that professional clockmakers are reluctant to repair synchronous clocks. In fact, provided that they have not been mistreated, synchronous clocks are usually reliable, and quite easy to maintain.

In 1962, the publication of Thomas Kuhn's Structure 'revolutionized' the way one conducts philosophical and historical studies of science. Through the introduction of both memorable and controversial notions, such as paradigms, scientific revolutions, and incommensurability, Kuhn argued against the traditionally accepted notion of scientific change as a progression towards the truth about nature, and instead substituted the idea that science is a puzzle solving activity, operating under paradigms, which become discarded after it fails to respond accordingly to anomalous challenges and a rival paradigm. Kuhn's Structure has sold over 1.4 million copies and the Times Literary Supplement named it one of the "Hundred Most Influential Books since the Second World War." Now, fifty years after this groundbreaking work was published, this volume offers a timely reappraisal of the legacy of Kuhn's book and an investigation into what Structure offers philosophical, historical, and sociological studies of science in the future.

Distillation is an art. And even an ancient one. It is strange to find that the history of this oldest and still most important method of producing chemically pure substances has ever been written. The reader looking at the bibliography appended to this book might object that many data existed. This may be true but the proper history of the art from the origin up to the present time was lacking.

The Nineteenth Century was a period of tremendous change in the daily lives of the average Americans. Never before had such change occurred so rapidly or and had affected such a broad range of people. And these changes were primarily a result of tremendous advances in science and technology. Many of the technologies that play such an central role in our daily life today were first invented during this great period of innovation--everything from the railroad to the telephone. These inventions were instrumental in the social and cultural developments of the time. The Civil War, Westward Expansion, the expansion and fall of slave culture, the rise of the working and middle classes and changes in gender roles--none of these would have occurred as they did had it not been for the science and technology of the time. Science and Technology in Nineteenth-Century America chronicles this relationship between science and technology and the revolutions in the lives of everyday Americans. The volume includes a discussion of:

• Transportation--from the railroad and steamship to the first automobiles appearing near the end of the century.
• Communication--including the telegraph, the telephone, and the photograph
• Industrialization-- how the growing factory system impacted the lives of working men and women
• Agriculture--how mechanical devices such as the McCormick reaper and applications of science forever altered how farming was done in the United States
• Exploration and navigations--the science and technology of the age was crucial to the expansion of the country that took place in the century, and

The volume forms a part of the celebrations marking the anniversary of the invention of the telescope. From its Renaissance beginnings to yesterday's Cold War, the essays contributed here throw a spotlight on a number of significant episodes in the continuing adventures of this well-loved instrument, which has played a crucial role in Man's thinking about his position - literally and philosophically - in the universe. Drawn from various conferences held by the Scientific Instrument Commission of the International Union of the History and Philosophy of Science between 2007 and 2009, these papers make a substantial contribution to our current knowledge about this fascinating optical instrument.