Scientists tell a story of 2,000years of stellar magnitude research that traces back to Hipparchus. This story of continuity in practices serves an important role in scientific education and outreach. STS scholars point out many ways that stories of continuity, like many narratives about science, are disconnected from practices. Yet the story of continuity in stellar magnitude is a powerful scientific achievement precisely because of its connection to practice. The historical development of star catalogues shows how specific recording practices connected past and present in a useful way. The narrative of continuity in stellar magnitude, however else it might be subject to STS critique of narrative, maintains its power because of its connection to practice. I suggest that more attention be paid to connections between practice and narrative in STS, and in particular to the ways that historical practices sustain narratives by connecting past and present.
...MoreDescription About the usefulness of portraying 2,000 years of stellar magnitude research as a continuous historical narrative.
Chapter
Hatch, Robert Alan;
(2010)
Discovering Mira Ceti: Celestial Change and Cosmic Continuity
(/isis/citation/CBB001032030/)
Book
Boner, Patrick J.;
(2010)
Change and Continuity in Early Modern Cosmology
(/isis/citation/CBB001032021/)
Article
Christián C. Carman;
(2019)
A Possible Date for Ptolemy’s Development of a Model for the Second Lunar Anomaly
(/isis/citation/CBB205575975/)
Chapter
Goulding, Robert;
(2006)
Wings (or Stairs) to the Heavens: The Parallactic Treatises of John Dee and Thomas Digges
(/isis/citation/CBB000760318/)
Chapter
Fantham, Elaine;
(2011)
More Sentiment than Science: Roman Stargazing before and after Manilius
(/isis/citation/CBB001201028/)
Chapter
Goldstein, Bernard R.;
Hon, Giora;
(2011)
Duhem's Continuity Thesis: The Intrusion of Ideology into History of Science
(/isis/citation/CBB001260521/)
Article
David Rabouin;
Richard T. W. Arthur;
(2020)
Leibniz’s syncategorematic infinitesimals II: their existence, their use and their role in the justification of the differential calculus
(/isis/citation/CBB320925047/)
Article
Sheehan, William;
(2013)
From the Transits of Venus to the Birth of Experimental Psychology
(/isis/citation/CBB001320405/)
Article
Michael Liston;
(2017)
Duhem: Images of Science, Historical Continuity, and the First Crisis in Physics
(/isis/citation/CBB131712366/)
Article
Ruth Glasner;
(2020)
An early stage in the evolution of Aristotle's physics
(/isis/citation/CBB835571117/)
Article
Strien, Marij van;
(2014)
On the Origins and Foundations of Laplacian Determinism
(/isis/citation/CBB001320768/)
Article
Christopher M. Graney;
(2021)
The Starry Universe of Jacques Cassini: Century-old Echoes of Kepler
(/isis/citation/CBB165601764/)
Book
Schlaudt, Oliver;
Huber, Lara;
(2015)
Standardization in Measurement: Philosophical, Historical and Sociological Issues
(/isis/citation/CBB001422484/)
Article
Becker, Lon;
(2004)
That von Neumann Did Not Believe in a Physical Collapse
(/isis/citation/CBB000410750/)
Article
Suárez, Mauricio;
(2004)
Quantum Selections, Propensities, and the Problem of Measurement
(/isis/citation/CBB000410755/)
Thesis
Biying Ling;
(2022)
How “Quantity” Disappeared from Philosophies of Measurement: Perspectives from 19th Century Sciences
(/isis/citation/CBB926778293/)
Article
Paolo Savoia;
(2022)
Knowing Nature by Its Surface: Butchers, Barbers, Surgeons, Gardeners, and Physicians in Early Modern Italy
(/isis/citation/CBB620818895/)
Book
Rickles, Dean;
(2008)
The Ashgate Companion to Philosophy of Physics
(/isis/citation/CBB001024230/)
Book
Ileana Chinnici;
(2019)
Decoding the Stars: A Biography of Angelo Secchi, Jesuit and Scientist
(/isis/citation/CBB547940053/)
Article
L. Verderame;
(2016)
Pleiades in Ancient Mesopotamia
(/isis/citation/CBB008865544/)
Be the first to comment!