Download Free Boerhaaveis Orations Book in PDF and EPUB Free Download. You can read online Boerhaaveis Orations and write the review.

The story of this little-known Dutch physician “will interest students and practitioners of history, chemistry, and philosophy of science” (Choice). In Inventing Chemistry, historian John C. Powers turns his attention to Herman Boerhaave (1668–1738), a Dutch medical and chemical professor whose work reached a wide, educated audience and became the template for chemical knowledge in the eighteenth century. The primary focus of this study is Boerhaave’s educational philosophy, and Powers traces its development from Boerhaave’s early days as a student in Leiden through his publication of the Elementa chemiae in 1732. Powers reveals how Boerhaave restructured and reinterpreted various practices from diverse chemical traditions (including craft chemistry, Paracelsian medical chemistry, and alchemy), shaping them into a chemical course that conformed to the pedagogical and philosophical norms of Leiden University’s medical faculty. In doing so, Boerhaave gave his chemistry a coherent organizational structure and philosophical foundation, and thus transformed an artisanal practice into an academic discipline. Inventing Chemistry is essential reading for historians of chemistry, medicine, and academic life.
The eighteenth century has long been considered critical for the development of modern chemistry, yet many features of the period remain largely unknown or unexplored. This volume details new approaches and topics to build a more complex view of chemical work during the period. Themes include late-phase alchemy, professionalization, chemical education, and the links and relations between chemistry and pharmacy, medicine, agriculture, and geology.
Presents evidence that Dutch commerce, not religion, inspired the rise of science in the 16th and 17th centuries. Scrutinises many historical documents relating to the study of medicine and natural history during this era, showing direct links between commerce and trade, and the flourishing of scientific investigation.
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.
The collection of writings known as the Corpus Hippocraticum played a decisive role in medical education for more than twenty-four centuries. This is the first full-length volume on medical education in Graeco-Roman antiquity since Kudlien’s seminal article of 1970. Most of the articles in this volume were originally presented as papers at the XIIth International Colloquium Hippocraticum in Leiden in 2005.
The history of anatomy has been the subject of much recent scholarship. This volume shifts the focus to the many different ways in which the function of the body and its fluids were understood in pre-modern European thought. Contributors demonstrate how different academic disciplines can contribute to our understanding of ‘physiology’, and investigate the value of this category to pre-modern medicine. The book contains individual essays on the wider issues raised by ‘physiology’, and detailed case studies that explore particular aspects and individuals. It will be useful to those working on medicine and the body in pre-modern cultures, in disciplines including classics, history of medicine and science, philosophy, and literature. Contributors include Barbara Baert, Marlen Bidwell-Steiner, Véronique Boudon-Millot, Rainer Brömer, Elizabeth Craik, Tamás Demeter, Valeria Gavrylenko, Hans L. Haak, Mieneke te Hennepe, Sabine Kalff, Rina Knoeff, Sergius Kodera, Liesbet Kusters, Karine van ‘t Land, Tomas Macsotay, Michael McVaugh, Vivian Nutton, Barbara Orland, Jacomien Prins, Julius Rocca, Catrien Santing, Daniel Schäfer, Emma Sidgwick, Frank W. Stahnisch, Diana Stanciu, Michael Stolberg, Liba Taub, Fabio Tutrone, Katrien Vanagt, and Marion A. Wells.
In the eighteenth century, chemistry was transformed from an art to a public science. Chemical affinity played an important role in this process as a metaphor, a theory domain, and a subject of investigation. Goethe's Elective Affinities, which was based on the current understanding of chemical affinities, attests to chemistry's presence in the public imagination. In Affinity, That Elusive Dream, Mi Gyung Kim restores chemical affinity to its proper place in historiography and in Enlightenment public culture. The Chemical Revolution is usually associated with Antoine-Laurent Lavoisier, who introduced a modern nomenclature and a definitive text. Kim argues that chemical affinity was erased from historical memory by Lavoisier's omission of it from his textbook. She examines the work of many less famous French chemists (including physicians, apothecaries, metallurgists, philosophical chemists, and industrial chemists) to explore the institutional context of chemical instruction and research, the social stratification that shaped theoretical discourse, and the crucial shifts in analytic methods. Apothecaries and metallurgists, she shows, shaped the main theory domains through their innovative approach to analysis. Academicians and philosophical chemists brought about two transformative theoretical moments through their efforts to create a rational discourse of chemistry in tune with the reigning natural philosophy. The topics discussed include the corpuscular (Cartesian) model in French chemistry in the early 1700s, the stabilization of the theory domains of composition and affinity, the reconstruction of French theoretical discourse in the middle of the eighteenth century, the Newtonian languages that plagued the domain of affinity just before the Chemical Revolution, Guyton de Morveau's program of affinity chemistry, Lavoisier's reconstruction of the theory domains of chemistry, and Berthollet's path as an affinity chemist.
One of the great medical controversies of the Enlightenment was the European debate on motion, sensation, and animal experimentation provoked by Albrecht von Haller’s treatise on irritability and sensibility (1752). Irritating Experiments is the first full-length study to explore the theoretical background and the experimental process that led to Haller's description and separation of two fundamental bodily qualities: irritability, or the capacity of muscles to contract upon stimulation, and sensibility, or the capacity of the nervous system to transmit impressions that are felt as touch or pain in humans, or produce signs of pain in animals. This new concept presented a serious challenge to the reigning medical systems. Haller’s animal experiments were repeated all over Europe, on a scale never seen before. The results, however, were contradictory. Haller's concept was largely rejected, and animal experimentation could not be established as a major research method in physiology. Focussing on procedural aspects of experimentation, the interaction between experiment and theory, the status of surgery, the use of medical and pathological models, and the culture of criticism, Irritating Experiments tries to explain why.
In the 400 years of its modern history the Netherlands has produced a distinguished array of eminent mathematicians, scientists and medical researchers including many Nobel-prize winners and other internationally recognised figures, from Stevin, Snel, and Huygens in the 17th century to Lorentz, Kammerlingh Onnes, Buys Ballot, De Vries, de Sitter, and Oort in the 19th and 20th centuries. Yet it has often been noted that the history of science in the Netherlands is underepresented in the international literature. The handbook A History of Science in The Netherlands aims to correct this situation by providing a chronological and thematic survey of the field from the 16th century to the present, essays on selected aspects of science in the Netherlands, and reference biographies of about 65 important Dutch scientists. Written by more than 10 experts from Europe and North America, the handbook is the standard English-language reference work for the field.