There is nothing like this in print anywhere! So, you know history . . . well, Brough explains it. He applies evolutionary natural selection to the whole of human history and prehistory, showing how social evolution works. He fully explains what makes civilizations rise and fall-our own, for example. No wonder all this was never known before: religion-influenced academic thinking stood in the way! If anything is capable of bringing Free Thinkers "out of the closet" so they can come together and organize, this is it. This extensive research effectively explains what the Religious-Right does to a society because the research is objective, impartial. Every Free Thinker who reads it will find out why Religious Reaction is growing, what it did in previous societies (yes, in every civilization, even in prehistory) and what is happening this time.

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.

This book offers a reconstruction of the debate on non-Euclidean geometry in neo-Kantianism between the second half of the nineteenth century and the first decades of the twentieth century. Kant famously characterized space and time as a priori forms of intuitions, which lie at the foundation of mathematical knowledge. The success of his philosophical account of space was due not least to the fact that Euclidean geometry was widely considered to be a model of certainty at his time. However, such later scientific developments as non-Euclidean geometries and Einstein's general theory of relativity called into question the certainty of Euclidean geometry and posed the problem of reconsidering space as an open question for empirical research. The transformation of the concept of space from a source of knowledge to an object of research can be traced back to a tradition, which includes such mathematicians as Carl Friedrich Gauss, Bernhard Riemann, Richard Dedekind, Felix Klein, and Henri Poincare, and which finds one of its clearest expressions in Hermann von Helmholtz's epistemological works. Although Helmholtz formulated compelling objections to Kant, the author reconsiders different strategies for a philosophical account of the same transformation from a neo-Kantian perspective, and especially Hermann Cohen's account of the aprioricity of mathematics in terms of applicability and Ernst Cassirer's reformulation of the a priori of space in terms of a system of hypotheses. This book is ideal for students, scholars and researchers who wish to broaden their knowledge of non-Euclidean geometry or neo-Kantianism.

This book explores the importance of bodily fluids to the development of medical knowledge in the eighteenth century. While the historiography has focused on the role of anatomy, this study shows that the chemical analyses of bodily fluids in the Dutch Republic radically altered perceptions of the body, propelling forwards a new system of medicine. It examines the new research methods and scientific instruments available at the turn of the eighteenth century that allowed for these developments, taken forward by Herman Boerhaave and his students. Each chapter focuses on a different bodily fluid - saliva, blood, urine, milk, sweat, semen - to investigate how doctors gained new insights into physiological processes through chemical experimentation on these bodily fluids. The book reveals how physicians moved from a humoral theory of medicine to new chemical and mechanical models for understanding the body in the early modern period. In doing so, it uncovers the lives and works of an important group of scientists which grew to become a European-wide community of physicians and chemists.

This book offers the first in-depth study of the masculine self-fashioning of scientific practitioners in nineteenth and early twentieth-century Britain. Focusing on the British Association for the Advancement of Science, founded in 1831, it explores the complex and dynamic shifts in the public image of the British 'man of science' and questions the status of the natural scientist as a modern masculine hero. Until now, science has been examined by cultural historians primarily for evidence about the ways in which scientific discourses have shaped prevailing notions about women and supported the growth of oppressive patriarchal structures. This volume, by contrast, offers the first in-depth study of the importance of ideals of masculinity in the construction of the male scientist and British scientific culture in the nineteenth and early twentieth centuries. From the eighteenth-century identification of the natural philosopher with the reclusive scholar, to early nineteenth-century attempts to reinvent the scientist as a fashionable gentleman, to his subsequent reimagining as the epitome of Victorian moral earnestness and meritocracy, Heather Ellis analyzes the complex and changing public image of the British 'man of science'.

The technical problems confronting different societies and periods, and the measures taken to solve them, form the concern of this annual collection of essays. It deals with the history of technical discovery and change, and explores the relation of technology to other aspects of life.

In 1963 a schoolboy browsing in his local library stumbled across the world's greatest mathematical problem: Fermat's Last Theorem, a puzzle that every child can understand but which has baffled mathematicians for over 300 years. Aged just ten, Andrew Wiles dreamed that he would crack it. Wiles's lifelong obsession with a seemingly simple challenge set by a long-dead Frenchman is an emotional tale of sacrifice and extraordinary determination. In the end, Wiles was forced to work in secrecy and isolation for seven years, harnessing all the power of modern maths to achieve his childhood dream. Many before him had tried and failed, including a 18-century philanderer who was killed in a duel. An 18-century Frenchwoman made a major breakthrough in solving the riddle, but she had to attend maths lectures at the Ecole Polytechnique disguised as a man since women were forbidden entry to the school. A remarkable story of human endeavour and intellectual brilliance over three centuries, Fermat's Last Theorem will fascinate both specialist and general readers.

The history of artificial cold has been a rather intriguing interdisciplinary subject (physics, chemistry, technology, sociology, economics, anthropology, consumer studies) which despite some excellent monographs and research papers, has not been systematically exploited. It is a subject with all kinds of scientific, technological as well as cultural dimensions. For example, the common home refrigerator has brought about unimaginably deep changes to our everyday lives changing drastically eating habits and shopping mentalities. From the end of the 19th century to the beginning of the 21st, issues related to the production and exploitation of artificial cold have never stopped to provide us with an incredibly interesting set of phenomena, novel theoretical explanations, amazing possibilities concerning technological applications and all encompassing cultural repercussions. The discovery of the unexpected and "bizarre" phenomena of superconductivity and superfluidity, the necessity to incorporate macroscopic quantum phenomena to the framework of quantum mechanics, the discovery of Bose-Einstein condensation and high temperature superconductivity, the use of superconducting magnets for high energy particle accelerators, the construction of new computer hardware, the extensive applications of cryomedicine, and the multi billion industry of frozen foods, are some of the more dramatic instances in the history of artificial cold.

This book offers fascinating insights into the key technical and scientific developments in the history of radar, from the first patent, taken out by Hulsmeyer in 1904, through to the present day. Landmark events are highlighted and fascinating insights provided into the exceptional people who made possible the progress in the field, including the scientists and technologists who worked independently and under strict secrecy in various countries across the world in the 1930s and the big businessmen who played an important role after World War II. The book encourages multiple levels of reading. The author is a leading radar researcher who is ideally placed to offer a technical/scientific perspective as well as a historical one. He has taken care to structure and write the book in such a way as to appeal to both non-specialists and experts. The book is not sponsored by any company or body, either formally or informally, and is therefore entirely unbiased. The text is enriched by approximately three hundred images, most of which are original and have been accessed by detailed searches in the archives.

This monograph presents the latest findings from a long-term research project intended to identify the physics behind Quantum Mechanics. A fundamental theory for quantum mechanics is constructed from first physical principles, revealing quantization as an emergent phenomenon arising from a deeper stochastic process. As such, it offers the vibrant community working on the foundations of quantum mechanics an alternative contribution open to discussion. The book starts with a critical summary of the main conceptual problems that still beset quantum mechanics. The basic consideration is then introduced that any material system is an open system in permanent contact with the random zero-point radiation field, with which it may reach a state of equilibrium. Working from this basis, a comprehensive and self-consistent theoretical framework is then developed. The pillars of the quantum-mechanical formalism are derived, as well as the radiative corrections of nonrelativistic QED, while revealing the underlying physical mechanisms. The genesis of some of the central features of quantum theory is elucidated, such as atomic stability, the spin of the electron, quantum fluctuations, quantum nonlocality and entanglement. The theory developed here reaffirms fundamental scientific principles such as realism, causality, locality and objectivity.

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.

The book provides an argument why realism is a viable metatheoretical framework for psychological science. By looking at some variations of realism such as scientific realism, critical realism, situational realism and Ferraris' new realism, a realist view of science is outlined that can feature as a metatheory for psychological science. Realism is a necessary correction for the mythical image of science responsible for and maintained by a number of dichotomies and polarities in psychology. Thus, the quantitative-qualitative dichotomy, scientist-practitioner polarity and positivist-constructionist opposition feed off and maintains a mythic image of science on levels of practice, methods and metatheory. Realism makes a clear distinction between ontology and epistemic access to reality, the latter which easily fits with softer versions of constructionism, and the former which grounds science in resistance and possibility, loosely translated as criticism. By taking science as a critical activity an issue such as the quantitative imperative looses its defining force as a hallmark of science - it provides epistemic access to certain parts of reality. In addition, essentially critical activities characteristic of various qualitative approaches may be welcomed as proper science. Academics, professionals and researchers in psychology would find value in situating their scholarly work in a realist metatheory avoiding the pitfalls of traditional methodologies and theories.

Originally published in 1938 by Cambridge University Press, The Evolution of Physics traces the development of ideas in physics, in a manner suitable for any reader. Written by famed physicist Albert Einstein and Leopold Infeld, this latest edition includes a new introduction from modern Einstein biographer, Walter Isaacson. Using this work to push his realist approach to physics in defiance of much of quantum mechanics, Einstein's The Evolution of Physics was published to great popularity and was featured in a Time magazine cover story. A classic work for any student of physics or lover of Albert Einstein, The Evolution of Physics can be enjoyed by any and should be celebrated by all.

This book considers the historical and cultural origins of the gut-brain relationship now evidenced in numerous scientific research fields. Bringing together eleven scholars with wide interdisciplinary expertise, the volume examines literal and metaphorical digestion in different spheres of nineteenth-century life. Digestive health is examined in three sections in relation to science, politics and literature during the period, focusing on Northern America, Europe and Australia. Using diverse methodologies, the essays demonstrate that the long nineteenth century was an important moment in the Western understanding and perception of the gastroenterological system and its relation to the mind in the sense of cognition, mental wellbeing, and the emotions. This collection explores how medical breakthroughs are often historically preceded by intuitive models imagined throughout a range of cultural productions.

Our Scientists today, have come to believe in a new god, "The Scientific Method." However, virtually all of the greatest scientists of all time, e.g. Einstein, Franklin, Newton, Euclid, and many more, believed in a personal, omnipotent, omniscient, and all loving God who has provided a place for our ego, soul, spirit, or whatever you choose to call it, following our body's death. This book is dedicated to showing that science and theology are all part of the same. The Story A newspaper reporter from outside our culture is asked to investigate a place referred to as New Jerusalem. He soon learns: What: It is the Heaven that the soals of the followers of Jesus Christ go to following their Earthly body's death and others may go later. When: Does it occur and is it the same for all Where: Is New Jerusalim located, is it perhaps in inter-dimensional space. Why: Has God prepared this for his children? How: Is this process explained scientifically? Is this explanation scientifically reasonable?

This book uses the spiral shape as a key to a multitude of strange and seemingly disparate stories about art, nature, science, mathematics, and the human endeavour. In a way, the book is itself organized as a spiral, with almost disconnected chapters circling around and closing in on the common theme. A particular strength of the book is its extremely cross-disciplinary nature - everything is fun, and everything is connected! At the same time, the author puts great emphasis on mathematical and scientific correctness, in contrast, perhaps, with some earlier books on spirals. Subjects include the mathematical properties of spirals, sea shells, sun flowers, Greek architecture, air ships, the history of mathematics, spiral galaxies, the anatomy of the human hand, the art of prehistoric Europe, Alfred Hitchcock, and spider webs, to name a few.

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.

The continent for science is also a continent for the humanities. Despite having no indigenous human population, Antarctica has been imagined in powerful, innovative, and sometimes disturbing ways that reflect politics and culture much further north. Antarctica has become an important source of data for natural scientists working to understand global climate change. As this book shows, the tools of literary studies, history, archaeology, and more, can likewise produce important insights into the nature of the modern world and humanity more broadly.

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.

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.