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Throughout the Roman Empire Cities held public speeches and lectures, had libraries, and teachers and professors in the sciences and the humanities, some subsidized by the state. There even existed something equivalent to universities, and medical and engineering schools. What were they like? What did they teach? Who got to attend them? In the first treatment of this subject ever published, Dr. Richard Carrier answers all these questions and more, describing the entire education system of the early Roman Empire, with a unique emphasis on the quality and quantity of its science content. He also compares pagan attitudes toward the Roman system of education with the very different attitudes of ancient Jews and Christians, finding stark contrasts that would set the stage for the coming Dark Ages.
In this extensive sequel to Science Education in the Early Roman Empire, Dr. Richard Carrier explores the social history of scientists in the Roman era. Was science in decline or experiencing a revival under the Romans? What was an ancient scientist thought to be and do? Who were they, and who funded their research? And how did pagans differ from their Christian peers in their views toward science and scientists? Some have claimed Christianity valued them more than their pagan forebears. In fact the reverse is the case. And this difference in values had a catastrophic effect on the future of humanity. The Romans may have been just a century or two away from experiencing a scientific revolution. But once in power, Christianity kept that progress on hold for a thousand years—while forgetting most of what the pagans had achieved and discovered, from an empirical anatomy, physiology, and brain science to an experimental physics of water, gravity, and air. Thoroughly referenced and painstakingly researched, this volume is a must for anyone who wants to learn how far we once got, and why we took so long to get to where we are today.
Throughout the Roman Empire Cities held public speeches and lectures, had libraries, and teachers and professors in the sciences and the humanities, some subsidized by the state. There even existed something equivalent to universities, and medical and engineering schools. What were they like? What did they teach? Who got to attend them? In the first treatment of this subject ever published, Dr. Richard Carrier answers all these questions and more, describing the entire education system of the early Roman Empire, with a unique emphasis on the quality and quantity of its science content. He also compares pagan attitudes toward the Roman system of education with the very different attitudes of ancient Jews and Christians, finding stark contrasts that would set the stage for the coming Dark Ages.
In this extensive sequel to Science Education in the Early Roman Empire, Dr. Richard Carrier explores the social history of scientists in the Roman era. Was science in decline or experiencing a revival under the Romans? What was an ancient scientist thought to be and do? Who were they, and who funded their research? And how did pagans differ from their Christian peers in their views toward science and scientists? Some have claimed Christianity valued them more than their pagan forebears. In fact the reverse is the case. And this difference in values had a catastrophic effect on the future of humanity. The Romans may have been just a century or two away from experiencing a scientific revolution. But once in power, Christianity kept that progress on hold for a thousand years--while forgetting most of what the pagans had achieved and discovered, from an empirical anatomy, physiology, and brain science to an experimental physics of water, gravity, and air. Thoroughly referenced and painstakingly researched, this volume is a must for anyone who wants to learn how far we once got, and why we took so long to get to where we are today.
Science in the Ancient World presents a worldwide history of science, from prehistoric times through the medieval period. It covers Europe, Africa, Asia, and the Americas and includes topics ranging from alchemy and astrology to psychology and physics. This work spans prehistory to 1500 CE, examining thousands of years of history in four world regions: Asia, Africa, Europe, and the Americas. Highlights of this period include the onset of civilization and science in Mesopotamia and Egypt, the accomplishments of the ancient Greeks between 700 BCE and 100 CE, the adaptation of Greek science by the Romans, the spread of Greek science during the Hellenistic Age, the expansion of Islamic power and commensurate scientific knowledge, and the development of science and philosophy in ancient China and India. Focusing on the history of the science that blossomed in the above regions, scientific disciplines covered include alchemy, astronomy, astrology, agriculture, architecture, biology, botany, chemistry, engineering, exploration, geography, hydraulics, institutions of science, marine science, mathematics, medicine, meteorology, military science, myth and religion, philosophy, philosophy of science, psychology, physics, and social sciences. In all of these fields, theory and application are explored, as are leading individuals and schools of thought, centers of intellectual activity, and notable accomplishments and inventions.
This title is part of UC Press's Voices Revived program, which commemorates University of California Press’s mission to seek out and cultivate the brightest minds and give them voice, reach, and impact. Drawing on a backlist dating to 1893, Voices Revived makes high-quality, peer-reviewed scholarship accessible once again using print-on-demand technology. This title was originally published in 1977.
The historical interface between science and religion was depicted as an unbridgeable conflict in the last quarter of the nineteenth century. Starting in the 1970s, such a conception was too simplistic and not at all accurate when considering the totality of that relationship. This volume evaluates the utility of the “complexity principle” in past, present, and future scholarship. First put forward by historian John Brooke over twenty-five years ago, the complexity principle rejects the idea of a single thesis of conflict or harmony, or integration or separation, between science and religion. Rethinking History, Science, and Religion brings together an interdisciplinary group of scholars at the forefront of their fields to consider whether new approaches to the study of science and culture—such as recent developments in research on science and the history of publishing, the global history of science, the geographical examination of space and place, and science and media—have cast doubt on the complexity thesis, or if it remains a serviceable historiographical model.
Is there enough evidence to believe Jesus rose from the dead, or must such a judgment be based only on faith? Can the resurrection story be considered a fact of history, or should it be viewed as an ahistorical account? Two renowned professors, atheist Carl Stecher and Christian Craig Blomberg, engage in a groundbreaking new debate on these very questions. Other experts on the resurrection, atheist Richard Carrier and Christian Peter S. Williams, comment on the outcome. Presenting new approaches to these centuries-old questions and taking into account the latest scholarly research, Resurrection: Faith or Fact? is a must-have not only for all those following the resurrection question—but also for those skeptics and Christians alike who are interested in determining for themselves the truth behind this foundational doctrine of the Christian faith.
How the latest cutting-edge science offers a fuller picture of life in Rome and antiquity This groundbreaking book provides the first comprehensive look at how the latest advances in the sciences are transforming our understanding of ancient Roman history. Walter Scheidel brings together leading historians, anthropologists, and geneticists at the cutting edge of their fields, who explore novel types of evidence that enable us to reconstruct the realities of life in the Roman world. Contributors discuss climate change and its impact on Roman history, and then cover botanical and animal remains, which cast new light on agricultural and dietary practices. They exploit the rich record of human skeletal material--both bones and teeth—which forms a bio-archive that has preserved vital information about health, nutritional status, diet, disease, working conditions, and migration. Complementing this discussion is an in-depth analysis of trends in human body height, a marker of general well-being. This book also assesses the contribution of genetics to our understanding of the past, demonstrating how ancient DNA is used to track infectious diseases, migration, and the spread of livestock and crops, while the DNA of modern populations helps us reconstruct ancient migrations, especially colonization. Opening a path toward a genuine biohistory of Rome and the wider ancient world, The Science of Roman History offers an accessible introduction to the scientific methods being used in this exciting new area of research, as well as an up-to-date survey of recent findings and a tantalizing glimpse of what the future holds.
This book describes in detail the various theories on the shape of the Earth from classical antiquity to the present day and examines how measurements of its form and dimensions have evolved throughout this period. The origins of the notion of the sphericity of the Earth are explained, dating back to Eratosthenes and beyond, and detailed attention is paid to the struggle to establish key discoveries as part of the cultural heritage of humanity. In this context, the roles played by the Catholic Church and the philosophers of the Middle Ages are scrutinized. Later contributions by such luminaries as Richer, Newton, Clairaut, Maupertuis, and Delambre are thoroughly reviewed, with exploration of the importance of mathematics in their geodetic enterprises. The culmination of progress in scientific research is the recognition that the reference figure is not a sphere but rather a geoid and that the earth’s shape is oblate. Today, satellite geodesy permits the solution of geodetic problems by means of precise measurements. Narrating this fascinating story from the very beginning not only casts light on our emerging understanding of the figure of the Earth but also offers profound insights into the broader evolution of human thought.