Takes a careful look at how Renaissance scientists analyzed and interpreted rain, wind, meteors, earthquakes, and other weather and its impact on the great thinkers of the scientific revolution.
This volume is devoted to the natural philosopher Bernardino Telesio (1509-1588) and his place in the scientific debates of the Renaissance. Telesio’s thought is emblematic of Renaissance culture in its aspiration towards universality; the volume deals with the roots and reception of his vistas from an interdisciplinary perspective ranging from the history of philosophy to that of physics, astronomy, meteorology, medicine, and psychology. The editor, Pietro Daniel Omodeo and leading specialists of intellectual history introduce Telesio’s conceptions to English-speaking historians of science through a series of studies, which aim to foster our understanding of a crucial early modern author, his world, achievement, networks, and influence. Contributors are Roberto Bondì, Arianna Borrelli, Rodolfo Garau, Giulia Giannini, Miguel Ángel Granada, Hiro Hirai, Martin Mulsow, Elio Nenci, Pietro Daniel Omodeo, Nuccio Ordine, Alessandro Ottaviani, Jürgen Renn, Riccarda Suitner, and Oreste Trabucco.
Gives accurate and reliable summaries of the current state of research. It includes entries on philosophers, problems, terms, historical periods, subjects and the cultural context of Renaissance Philosophy. Furthermore, it covers Latin, Arabic, Jewish, Byzantine and vernacular philosophy, and includes entries on the cross-fertilization of these philosophical traditions. A unique feature of this encyclopedia is that it does not aim to define what Renaissance philosophy is, rather simply to cover the philosophy of the period between 1300 and 1650.
How did early modern scientists interpret Galileo’s influential Two New Sciences? In 1638, Galileo was over seventy years old, blind, and confined to house arrest outside of Florence. With the help of friends and family, he managed to complete and smuggle to the Netherlands a manuscript that became his final published work, Two New Sciences. Treating diverse subjects that became the foundations of mechanical engineering and physics, this book is often depicted as the definitive expression of Galileo’s purportedly modern scientific agenda. In Reading Galileo, Renée Raphael offers a new interpretation of Two New Sciences which argues instead that the work embodied no such coherent canonical vision. Raphael alleges that it was written—and originally read—as the eclectic product of the types of discursive textual analysis and meandering descriptive practices Galileo professed to reject in favor of more qualitative scholarship. Focusing on annotations period readers left in the margins of extant copies and on the notes and teaching materials of seventeenth-century university professors whose lessons were influenced by Galileo’s text, Raphael explores the ways in which a range of early-modern readers, from ordinary natural philosophers to well-known savants, responded to Galileo. She highlights the contrast between the practices of Galileo’s actual readers, who followed more traditional, “bookish” scholarly methods, and their image, constructed by Galileo and later historians, as “modern” mathematical experimenters. Two New Sciences has not previously been the subject of such rigorous attention and analysis. Reading Galileo considerably changes our understanding of Galileo’s important work while offering a well-executed case study in the reception of an early-modern scientific classic. This important text will be of interest to a wide range of historians—of science, of scholarly practices and the book, and of early-modern intellectual and cultural history.
In Epicurean Meteorology Frederik Bakker discusses the meteorology as laid out by Epicurus (341-270 BCE) and Lucretius (1st century BCE). Although in scope and organization their ideas are clearly rooted in the Peripatetic tradition, their meteorology sets itself apart from this tradition by its systematic use of multiple explanations and its sole reliance on sensory evidence as opposed to mathematics and other axiomatic principles. Through a thorough investigation of the available evidence Bakker offers an updated and qualified account of Epicurean meteorology, arguing against Theophrastus’ authorship of the Syriac meteorology, highlighting the originality of Lucretius’ treatment of mirabilia, and refuting the oft-repeated claim that the Epicureans held the earth to be flat.
According to the United Nations, three out of five people will be living in cities worldwide by the year 2030. The United States continues to experience urbanization with its vast urban corridors on the east and west coasts. Although urban weather is driven by large synoptic and meso-scale features, weather events unique to the urban environment arise from the characteristics of the typical urban setting, such as large areas covered by buildings of a variety of heights; paved streets and parking areas; means to supply electricity, natural gas, water, and raw materials; and generation of waste heat and materials. Urban Meteorology: Forecasting, Monitoring, and Meeting Users' Needs is based largely on the information provided at a Board on Atmospheric Sciences and Climate community workshop. This book describes the needs for end user communities, focusing in particular on needs that are not being met by current urban-level forecasting and monitoring. Urban Meteorology also describes current and emerging meteorological forecasting and monitoring capabilities that have had and will likely have the most impact on urban areas, some of which are not being utilized by the relevant end user communities. Urban Meteorology explains that users of urban meteorological information need high-quality information available in a wide variety of formats that foster its use and within time constraints set by users' decision processes. By advancing the science and technology related to urban meteorology with input from key end user communities, urban meteorologists can better meet the needs of diverse end users. To continue the advancement within the field of urban meteorology, there are both short-term needs-which might be addressed with small investments but promise large, quick returns-as well as future challenges that could require significant efforts and investments.
Aristotle’s Meteorology: a twin set in Mediaeval Text Tradition. The Greek text of Aristotle’s Meteorology is in places highly problematic. Its edition by Fobes (1922), however, is a highlight in editorial technique. The Arabic version (c.800) is of quite different form and content. The two editions by Badawi (1961) and Petraitis (1967) were subject to considerable improvement. The present edition was done on the basis of the two extant Arabic manuscripts. The edition of the Latin translation (12th c.) from the Arabic has been constituted on the basis of 5 manuscript sources, out of 110 copies. The status of both the Arabic and the Latin texts was bad, but not hopeless: as the Latin version stands near to its Arabic predecessor, the text of the latter gives support to the editing of the text, as well as for the understanding of the contents. And this procedure works vice versa. The present edition of the texts has been completed with an Index of technical terms in Arabic, Greek and Latin and Registers on the Greek and Latin. Further a Bibliography and List of Latin manuscripts are presented.
Mountain Meteorology: Fundamentals and Applications offers first an introduction to the basic principles and concepts of mountain meteorology, then goes on to discuss their application in natural resources management. It includes over two hundred beautiful, full-color photographs, figures, and diagrams, as well as observable indicators of atmospheric processes--such as winds, temperature, and clouds--to facilitate the recognition of weather systems and events for a variety of readers. It is ideal for those who spend time in or near mountains and whose daily activities are affected by weather. As a comprehensive work filled with diverse examples and colorful illustrations, it is essential for professionals, scholars, and students of meteorology.