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Originally published in 2005. There has been much discussion in scholarly literature of the applicability of the concept of 'science' as understood in contemporary English to ancient Greek thought, and of the influence of philosophy and the individual sciences on each other in antiquity. This book focuses on how the ancients themselves saw the issue of the relation between philosophy and the individual sciences. Contributions, from a distinguished international panel of scholars, cover the whole of antiquity from the beginnings of both philosophy and science to the later Roman Empire.
In this volume I have attempted to give especial and marked attention to the fate of Greek science in late antiquity. Elementary texts in the past have long ignored this aspect of Greek science. The importance of the course of Greek science in late antiquity is evident, for it was during this period that much of the Greek scientific corpus was put into the form in which it passed to the medieval Latin West. We are justified, then, in considering this volume as an introduction to medieval and early modern science—that science being considered as a transformation of Greek science.
This book explores how science and mathematics were communicated in antiquity in a wide variety of texts, including poetry, letters and biographies.
This is the first comprehensive study of what remains of the writings of Aristotle's student Eudemus of Rhodes on the history of the exact sciences. These fragments are crucial to our understanding of the content, form, and goal of the Peripatetic historiography of science. The first part of the book presents an analysis of those trends in Presocratic, Sophistic and Platonic thought that contributed to the development of the history of science. The second part provides a detailed study of Eudemus' writings in their relationship with the scientific literature of his time, Aristotelian philosophy and the other historiographic genres practiced at the Lyceum: biography, medical and natural-philosophical doxography. Although Peripatetic historiography of science failed in establishing itself as a continuous genre, it greatly contributed both to the birth of the Arabic medieval historiography of science and to the development of this genre in Europe in the 16th-18th centuries.
Based on a series of lectures delivered at Cornell University in the fall of 1949, and since revised, this is the standard non-technical coverage of Egyptian and Babylonian mathematics and astronomy, and their transmission to the Hellenistic world. Entirely modern in its data and conclusions, it reveals the surprising sophistication of certain areas of early science, particularly Babylonian mathematics. After a discussion of the number systems used in the ancient Near East (contrasting the Egyptian method of additive computations with unit fractions and Babylonian place values), Dr. Neugebauer covers Babylonian tables for numerical computation, approximations of the square root of 2 (with implications that the Pythagorean Theorem was known more than a thousand years before Pythagoras), Pythagorean numbers, quadratic equations with two unknowns, special cases of logarithms and various other algebraic and geometric cases. Babylonian strength in algebraic and numerical work reveals a level of mathematical development in many aspects comparable to the mathematics of the early Renaissance in Europe. This is in contrast to the relatively primitive Egyptian mathematics. In the realm of astronomy, too, Dr. Neugebauer describes an unexpected sophistication, which is interpreted less as the result of millennia of observations (as used to be the interpretation) than as a competent mathematical apparatus. The transmission of this early science and its further development in Hellenistic times is also described. An Appendix discusses certain aspects of Greek astronomy and the indebtedness of the Copernican system to Ptolemaic and Islamic methods. Dr. Neugebauer has long enjoyed an international reputation as one of the foremost workers in the area of premodern science. Many of his discoveries have revolutionized earlier understandings. In this volume he presents a non-technical survey, with much material unique on this level, which can be read with great profit by all interested in the history of science or history of culture. 14 plates. 52 figures.
The third edition of this magisterial account of medicine in the Greek and Roman worlds, written by the foremost expert on the subject, has been updated to incorporate the many new discoveries made in the field over the past decade. This revised volume includes discussions of several new or forgotten works by Galen and his contemporaries, as well as of new archaeological material. RNA analysis has expanded our understanding of disease in the ancient world; the book explores the consequences of this for sufferers, for example in creating disability. Nutton also expands upon the treatment of pre-Galenic medicine in Greece and Rome. In addition, subtitles and a chronology will make for easier student consultation, and the bibliography is substantially revised and updated, providing avenues for future student research. This third edition of Ancient Medicine will remain the definitive textbook on the subject for students of medicine in the classical world, and the history of medicine and science more broadly, with much to interest scholars in the field as well.
Ancient Natural History surveys the ways in which people in the ancient world thought about nature. The writings of Aristotle, Theophrastus, Strabo, Pliny are examined, as well as the popular beliefs of their contemporaries. Roger French finds that the same natural-historical material was used to serve the purposes of both the Greek philosopher and the Christian allegorist, or of a taxonomist like Theophrastus and a collector of curiosa like Pliny. He argues convincingly that the motives of ancient writers on nature were rarely `scientific' and, indeed, that there was not really any science at all in the ancient world. This book will make fascinating reading for students, academics and anyone who is interested in the history of science, or in the ancient history of ideas.
Time in Antiquity explores the different perceptions of time from Classical antiquity, principally through the technology designed to measure, mark or tell time. The material discussed ranges from the sixth century BC in archaic Greece to the 3rd century AD in the Roman Empire, and offers fascinating insights into ordinary people’s perceptions of time and time-keeping instruments.
Gavin Hardy and Laurence Totelin have brought together their botanical and historical knowledge to produce this unique overview of ancient botany. It examines all the founding texts of botanical science, such as Theophrastus' Enquiry into Plants, Dioscorides' Materia Medica, Pliny the Elder's Natural History, Nicolaus of Damascus' On Plants, and Galen' On Simple Remedies, but also includes lesser known texts ranging from the sixth century BCE to the seventh century CE, as well as some material evidence. The authors adopt a thematic approach rather than a chronological one, considering important issues such as the definition of a plant, nomenclature, classifications, physiology, the link between plants and their environment, and the numerous usages of plants in the ancient world. The book also takes care to place ancient botany in its historical, social and economic context. The authors have explained all technical botanical terms and ancient history notions, and as a result, this work will appeal to historians of ancient science, medicine and technology; classicists; and botanists interested in the history of their discipline.
This book consists of 24 papers on ancient Greek science and technology. It covers such areas as mathematics, physics, engineering, astronomical methods and instruments, and environmental issues. A great variety of topics are discussed, including medical care in ancient Olympiads, mathematical concepts in Plato, the concept of the rate of change in various mathematical areas and the concept of symmetry in ancient Greece. Aristotle’s Physics on free falling bodies, world-structure formation and matter according to the Presocratics, acoustic phenomena in archaeological sites, Trojan Horse reconstruction, offensive and defensive weapons in Homer’s epics, and telecommunications in ancient Greece are also some of the issues addressed here. This book will be an important resource to physicists, mathematicians, engineers, archaeologists, historians, and philologists.