repeating circle
{{Short description|Type of angular measurement instrument}}
File:12in Repeating circle.jpg
File:Reflecting circle-CnAM 1842-IMG 4998-gradient.jpg.]]
The repeating circle is an instrument for geodetic surveying, developed from the reflecting circle by Étienne Lenoir in 1784.{{cite book |last = Daumas |first = Maurice |title = Scientific Instruments of the Seventeenth and Eighteenth Centuries and Their Makers |publisher = Portman Books |location = London |date = 1989 |isbn = 978-0-7134-0727-3 }} He invented it while an assistant of Jean-Charles de Borda, who later improved the instrument. It was notable as being the equal of the great theodolite created by the renowned instrument maker, Jesse Ramsden. It was used to measure the meridian arc from Dunkirk to Barcelona by Jean Baptiste Delambre and Pierre Méchain (see: meridian arc of Delambre and Méchain).
Construction and operation
The repeating circle is made of two telescopes mounted on a shared axis with scales to measure the angle between the two. The instrument combines multiple measurements to increase accuracy with the following procedure:
File:Borda-repeating-circle.svg
At this stage, the angle on the instrument is double the angle of interest between the points. Repeating the procedure causes the instrument to show 4× the angle of interest, with further iterations increasing it to 6×, 8×, and so on. In this way, many measurements can be added together, allowing some of the random measurement errors to cancel out.{{cite book |first = Ken |last = Alder |title = The Measure Of All Things |date = 2002 |publisher = Simon and Schuster |isbn = 0-7432-1675-X |url-access = registration |url = https://archive.org/details/measureofallthin00alde }}
Use in geodetic surveys
The repeating circle was used by César-François Cassini de Thury, assisted by Pierre Méchain, for the triangulation of the Anglo-French Survey. It would later be used for the Arc measurement of Delambre and Méchain as improvements in the measuring device designed by Borda and used for this survey also raised hopes for a more accurate determination of the length of the French meridian arc.{{Cite journal |last1=Martin |first1=Jean-Pierre |last2=McConnell |first2=Anita |date=2008-10-21 |title=Joining the observatories of Paris and Greenwich |url=https://royalsocietypublishing.org/doi/10.1098/rsnr.2008.0029 |journal=Notes and Records of the Royal Society |volume=62 |issue=4 |pages=355–372 |doi=10.1098/rsnr.2008.0029|url-access=subscription }}
When the metre was chosen as an international unit of length, it was well known that by measuring the latitude of two stations in Barcelona, Méchain had found that the difference between these latitudes was greater than predicted by direct measurement of distance by triangulation and that he did not dare to admit this inaccuracy.{{Cite web |title=Mesure du 1er mètre : une erreur qui changea le monde |url=https://www.techniques-ingenieur.fr/actualite/articles/mesure-du-1er-metre-une-erreur-qui-changea-le-monde-2715/ |access-date=2025-03-28 |website=Techniques de l'Ingénieur |language=fr-FR}}{{Cite book |last=Jouffroy |first=Achille de (1785-1859) Auteur du texte |url=https://gallica.bnf.fr/ark:/12148/bpt6k6338674m |title=Dictionnaire des inventions et découvertes anciennes et modernes, dans les sciences, les arts et l'industrie.... 2. H-Z / recueillis et mis en ordre par M. le marquis de Jouffroy ; publié par l'abbé Migne,... |date=1852–1853 |pages=419 |language=EN}} This was later explained by clearance in the central axis of the repeating circle causing wear and consequently the zenith measurements contained significant systematic errors.Martina Schiavon. La geodesia y la investigación científica en la Francia del siglo XIX : la medida del arco de meridiano franco-argelino (1870–1895). Revista Colombiana de Sociología, 2004, Estudios sociales de la ciencia y la tecnologia, 23, pp. 11–30.