Vogel, Brant Montgomery (Author)
The historiography of meteorology recognizes a discontinuity between the classical meteorology of Aristotle, which analyzed the causes of remarkable weather events, and modern meteorology, which applies instruments to the study of the atmosphere and weather prediction. It is commonly held that the invention of the thermometer and the barometer, and the exploitation of such instruments by the scientific societies of the seventeenth century, laid the foundation of modern meteorology. This study contextualizes the history of instruments as they were developed and studied by the Royal Society. Working toward an answer to the question of why English natural philosophers thought they could predict the future with instruments which measured the state of the air, popular and intellectual weather prediction practices outside the Aristotelian tradition are examined as conditioning the way instruments would be understood. The almanac mediated between people and weather in early modern England. Weather predictions in popular literature were based on natural astrology along with other co-existing practices: popular traditions of weather signs and lunar weather prediction, and a classical tradition in weather signs. Within this context, the new instruments took on a popular as well as scientific role, starting as instruments of natural magic, then becoming items of commerce and signs of class. The use of instruments as outlined in popular manuals was a hybrid of scientific methodology with astrological and folk practice. While the market in instruments expanded, the Royal Society made several attempts to initiate a Baconian study of the weather, based on the weather diary, which took its tabular form from almanacs. Instruments remained controversial within scientific circles, until, as in the popular imagination, their efficacy became an unexamined commonplace. Meanwhile, astrologers acting at the fringes of scientific circles attempted to reform astrometeorology through Baconian methods not unlike those used by instrumental meteorology, attracting interest from certain scientists, and hostility from others. By the mid-eighteenth century popular and astrological practice descended in status, while instrumental weather study continued to be pursued in quasi-statistical fashion, having more affinity to climatology and public health than to the modern meteorology that would be developed in subsequent centuries.
...MoreDescription On the ways that weather prediction was influenced by several different traditions, including astrology, folk practice, and scientific-instrument-based study. Cited in Diss. Abstr. Int. A 63 (2003): 4067. UMI order no. 3071421.
Article
Dana Jalobeanu;
(2020)
Experiments in the Making: Instruments and Forms of Quantification in Francis Bacon’s Historia Densi et Rari
(/p/isis/citation/CBB607498250/)
Article
Macadam, Joyce;
(2012)
English Weather: The Seventeenth-Century Diary of Ralph Josselin
(/p/isis/citation/CBB001200983/)
Article
Carolan, V.;
(2011)
The Shipping Forecast and British National Identity
(/p/isis/citation/CBB001024925/)
Article
Douglas J. Lanska;
(2019)
The Development and Evolution of “Cerebral Thermometry”: The Physiology Underlying a Nineteenth-Century Approach to Cerebral Localization and Neurological Diagnosis
(/p/isis/citation/CBB416833074/)
Article
Poskett, James;
(2015)
Sounding in Silence: Men, Machines and the Changing Environment of Naval Discipline, 1796--1815
(/p/isis/citation/CBB001551283/)
Chapter
Johnston, Stephen;
(2006)
Reading Rules: Artefactual Evidence for Mathematics and Craft in Early-Modern England
(/p/isis/citation/CBB000773529/)
Article
Ion Mihailescu;
(2021)
Graphical details: the secret life of Christopher Wren's drawing of the weather clock
(/p/isis/citation/CBB204410354/)
Thesis
Scofield, Bruce;
(2010)
A History and Test of Planetary Weather Forecasting
(/p/isis/citation/CBB001560831/)
Article
Ian M. Davis;
(2020)
Antoni van Leeuwenhoek and measuring the invisible: The context of 16th and 17th century micrometry
(/p/isis/citation/CBB779235534/)
Article
James Lequeux;
(2020)
Geodetic arcs, pendulums and the shape of the Earth
(/p/isis/citation/CBB886876626/)
Article
Turner, A. J.;
(1981)
William Oughtred, Richard Delamain and the horizontal instrument in 17th-century England
(/p/isis/citation/CBB000022273/)
Book
Belli, Gabriella;
Giacomoni, Paola;
Ottani Cavina, Anna;
(2003)
Montagna: Arte, scienza, mito da Dürer a Warhol
(/p/isis/citation/CBB000741141/)
Article
Prager, Frank D.;
(1980)
Berti's devices and Torricelli's barometer from 1641 to 1643
(/p/isis/citation/CBB000012319/)
Article
Zouckermann, Raymond;
(1981)
Air weight and atmospheric pressure from Galileo to Torricelli
(/p/isis/citation/CBB000008200/)
Article
Lamy, Jérôme;
(2006)
Le problème des longitudes en mer dans les traités d'hydrographie des Jésuites aux XVIIe et XVIIIe siècles: Choix méthodologiques et pratiques instrumentales
(/p/isis/citation/CBB000931359/)
Article
Righini, Guglielmo;
(1974)
Sulla costruzione del compasso geometrico e militare di Galileo
(/p/isis/citation/CBB000003577/)
Article
Ulbrich, Karl;
(1979-81)
Johann Kepler und dessen Linzer und Wiener Längemasse
(/p/isis/citation/CBB000003344/)
Chapter
Chapman, Allan;
(1994)
Reconstructing the angle-measuring instruments of Pierre Gassendi
(/p/isis/citation/CBB000042845/)
Article
Buchwald, Jed Z.;
(2006)
Discrepant Measurements and Experimental Knowledge in the Early Modern Era
(/p/isis/citation/CBB000740258/)
Article
Blakemore, Richard J.;
(2012)
Navigating Culture: Navigational Instruments as Cultural Artefacts, c. 1550--1650
(/p/isis/citation/CBB001200835/)
Be the first to comment!