Paris meridian

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Meridian Room (or Cassini Room) at the Paris Observatory, 61 avenue de l'Observatoire (14th arrondissement). The Paris meridian is traced on the floor.
Paris meridian is located in France
Paris meridian
Paris meridian
Paris meridian
Paris meridian
Paris meridian
Paris meridian
Paris meridian
Paris meridian
Paris meridian
Paris Observatory
Paris Observatory
Paris meridian

The Paris meridian is a meridian line running through the Paris Observatory in Paris, France—now longitude 2°20′14.03″ east. It was a long-standing rival to the Greenwich meridian as the prime meridian of the world. The French meridian arc (French: la Méridienne de France) is the name of the meridian arc measured along the Paris meridian. The French meridian arc was important for French cartography, inasmuch as the triangulations of France began with the measurement of the French meridian arc. Moreover the French meridian arc was important for geodesy as it was one of the meridian arcs which were measured in order to determine the figure of the Earth.[1] The determination of the figure of the earth was a problem of the highest importance in astronomy, inasmuch as the diameter of the earth was the unit to which all celestial distances had to be referred.

Origin[edit]

In the year 1634, France ruled by Louis XIII and Cardinal Richelieu decided that the Ferro meridian should be used as the reference on maps, since this island is the most western position of the Old World. It was also thought to be exactly 20 degrees west of Paris.

A French astronomer, Abbé Jean Picard, measured the length of a degree of latitude along the Paris meridian and computed from it the size of the Earth during 1668–1670.[1] In 1666, Louis XIV of France had authorized the building of an observatory in Paris. On Midsummer's Day 1667, members of the Academy of Sciences traced the future building's outline on a plot outside town near the Port Royal abbey, with Paris meridian exactly bisecting the site north-south.[2] French cartographers would use it as their prime meridian for more than 200 years.[3]

Old maps from continental Europe often have a common grid with Paris degrees at the top and Ferro degrees offset by 20 at the bottom. Louis Feuillée also worked on this problem in 1724. It was later found that the actual island of El Hierro itself is in fact 20° 31'  west of Paris, but the Ferro meridian was still defined as 20 degrees west of Paris.[3]

Four generations of the Cassini family headed the Paris Observatory.[4] They directed the surveys of France for over 100 years.[4]

Between 1684 and 1718 Giovanni Domenico Cassini and Jacques Cassini, starting from Picard’s base, carried a triangulation northwards from Paris to Dunkirk and southwards from Paris to Collioure. They measured a base of 7246 toises near Perpignan, and a somewhat shorter base near Dunkirk; and from the northern portion of the arc, which had an amplitude of 2° 12′ 9″, obtained for the length of a degree 56,960 toises; while from the southern portion, of which the amplitude was 6° 18′ 57″, they obtained 57,097 toises. The immediate inference from this was that, the degree diminishing with increasing latitude, the earth must be a prolate spheroid. This conclusion was totally opposed to the theoretical investigations of Newton and Huygens, and accordingly the Academy of Sciences of Paris determined to apply a decisive test by the measurement of arcs at a great distance from each other—one in the neighbourhood of the equator, the other in a high latitude. Thus arose the celebrated expeditions of the French academicians to the Equator and to Lapland, the latter directed by Pierre Louis Maupertuis.

In 1740 was published in the Paris Mémoires an account, by Cassini de Thury, of a remeasurement by himself and Nicolas Louis de Lacaille of the meridian of Paris. With a view to determine more accurately the variation of the degree along the meridian, they divided the distance from Dunkirk to Collioure into four partial arcs of about two degrees each, by observing the latitude at five stations. The results previously obtained by Giovanni Domenico and Jacques Cassini were not confirmed, but, on the contrary, the length of the degree derived from these partial arcs showed on the whole an increase with an increasing latitude.

Cesar-François Cassini de Thury completed the Cassini map, which was published by his son Cassini IV in 1790.[1] Moreover the Paris meridian was linked with international collaboration in geodesy and metrology. Cesar-François Cassini de Thury (1714-1784) expressed the project to extend the French geodetic network all aroud the world and to connect the Paris and Greenwich observatories.[5] In 1783 the French Academy of Science presented his proposal to King George III.[5] This led to the Paris and Greenwich observatories' connection by General William Roy and the first triangulation of Great Britain.[5] France and Great Britain surveys' connection was repeated by French astronomers and geodesists in 1787 by Cassini IV, in 1823-1825 by François Arago and in 1861-1862 by François Perrier.[5][6]

In the early 19th century, the Paris meridian's arc was recalculated with greater precision between Shetland and the Balearic Islands by the astronomer François Arago, whose name now appears on the plaques or medallions tracing the route of the meridian through Paris (see below). Biot and Arago published their work as a fourth volume following the three volumes of "Bases du système métrique décimal ou mesure de l'arc méridien compris entre les parallèles de Dunkerque et Barcelone" (Basis for the decimal metric system or measurement of the meridian arc comprised between Dunkirk and Barcelona) by Delambre and Méchain.[7]

The West Europe-Africa Meridian-arc extending from the Shetland Islands, through Great Britain, France and Spain to El Aghuat in Algeria, whose parameters were calculated from surveys carried out in the mid to late 19th century. It yielded a value for the equatorial radius of the earth a = 6 377 935 metres, the ellipticity being assumed as 1/299.15. The radius of curvature of this arc is not uniform, being, in the mean, about 600 metres greater in the northern than in the southern part. The Greenwich meridian is depicted rather than the Paris meridian.[8]

In the second half of the 19th century, Carlos Ibáñez e Ibáñez de Ibero directed the survey of Spain.[9] From 1870 to 1894 the Paris meridan's arc was remeasured by Perrier and Bassot in France and Algeria.[4][6] In 1879, Ibáñez de Ibero for Spain and François Perrier for France directed the junction of the Spanish geodetic network with Algeria.[10] This connection was a remarkable enterprise where triangles with a maximum length of 270 km were observed from mountain stations over the Mediterranean Sea.[4] The triangulation of France was then connected to those of Great Britain, Spain and Algeria and thus the Paris meridian's arc measurement extended from Shetland to the Sahara.[10]

The fundamental co-ordinates of the Panthéon were also obtained anew, by connecting the Panthéon and the Paris Observatory with the five stations of Bry-sur-Marne, Morlu, Mont Valérien, Chatillon and Montsouris, where the observations of latitude and azimuth were effected.

According to the calculations made at the central bureau of the international association on the great meridian arc extending from the Shetland Islands, through Great Britain, France and Spain to El Aghuat in Algeria, the equatorial radius of the earth a = 6377935 metres, the ellipticity being assumed as 1/299.15. The net does not follow the meridian exactly, but deviates both to the west and to the east; actually, the meridian of Greenwich is nearer the mean than that of Paris (Helmert, Grösse d. Erde).

In 1860, the Russian Government at the instance of Otto Sturves invited the Governments of Belgium, France, Prussia and England to connect their triangulations in order to measure the length of an arc of parallel in latitude 52° and to test the accuracy of the figure and dimensions of the Earth, as derived from the measurements of arc of meridian.[11] In order to combine the measurements it was necessary to compare the geodetic standards of length used in the different countries.[11] The British Government invited those of France, Belgium, Prussia, Russia, India, Australia, Austria, Spain, United States and Cape of Good Hope to send their standards to the Ordnance Survey office in Southampton.[11] Notably the standards of France, Spain and United States were based on the metric system, whereas those of Prussia, Belgium and Russia where calibrated against the toise, of which the oldest physical representative was the Toise of Peru.[11][12] The Toise of Peru had been constructed in 1735 for Bouguer and De La Condamine as their standard of reference in the French Geodesic Mission, conducted in actual Ecuador from 1735 to 1744 in collaboration with the Spanish officers Jorge Juan and Antonio de Ulloa.[11][13]

Alexander Ross Clarke and Henry James published the first results of the standards' comparisons in 1867.[11] The same year Russia, Spain and Portugal joined the "Europäische Gradmessung" and the General Conference of the association proposed the metre as a uniform length standard for the Arc measurement and recommended the establishment of an International Bureau of Weights and Measures.[13]

The Europäische Gradmessung decided the creation of an international geodetic standard at the General Conference held in Paris in 1875.[6] The Metre Convention was signed in 1875 in Paris and the International Bureau of Weights and Measures was created under the supervision of the International Committee for Weights and Measures.[13][14] The first president of the International Committee for Weights and Measures was the Spanish geodesist Carlos Ibáñez e Ibáñez de Ibero.[15] He also was the president of the Permanent Commission of the "Europäische Gradmessung" from 1874 to 1886.[13] In 1886 the association changed name for the International Geodetic Association and Carlos Ibáñez e Ibáñez de Ibero was reelected as president.[13][15] He remained in this position until his death in 1891.[15] During this period the International Geodetic Association gained world wide importance with the joining of United States, Mexico, Chile, Argentina and Japan.[13] In 1883 the General Conference of the "Europäische Gradmessung" proposed to select the Greenwich meridian as the prime meridian in the hope that Great Britain would accede to the Metre Convention.[13][16]

In 1884, at the International Meridian Conference in Washington DC, the Greenwich meridian was adopted as the prime meridian of the world. France and Brazil abstained. The French clung to the Paris meridian as a rival to Greenwich until 1911 for timekeeping purposes and 1914 for navigation. To this day, French cartographers continue to indicate the Paris meridian on some maps.

With the arrival of wireless telegraphy, France established a transmitter on the Eiffel Tower in order to brodcast time signal.[16] The creation of the International Time Bureau, seated at the Paris Observatory, was decided upon during the 1912 Conférence internationale de l'heure radiotélégraphique. The following year an attempt was made to regulate the international status of the bureau through the creation of an international convention. However, the convention wasn't ratified by its member countries due to the outbreak of World War I. In 1919, after the war, it was decided upon to make the bureau the executive body of the International Commission of Time, one of the commissions of the then newly founded International Astronomical Union (IAU).

From 1956 until 1987 the International Time Bureau was part of the Federation of Astronomical and Geophysical Data Analysis Services (FAGS). In 1987 the bureau's tasks of combining different measurements of Atomic Time were taken over by the BIPM. Its tasks related to the correction of time with respect to the celestial reference frame and the earth's rotation in order to realize UTC were taken over by the IERS.

The Arago medallions[edit]

One of the 135 Arago medallions. This one is located near the Louvre Pyramid.

In 1994 the Arago Association and the city of Paris commissioned a Dutch conceptual artist, Jan Dibbets, to create a memorial to Arago. Dibbets came up with the idea of setting 135 bronze medallions (although only 121 are documented in the official guide to the medallions) into the ground along the Paris meridian between the northern and southern limits of Paris: a total distance of 9.2 kilometres/5.7 miles. Each medallion is 12 cm in diameter and marked with the name ARAGO plus N and S pointers.

Another project, the Green Meridian (An 2000 — La Méridienne Verte), aims to establish a plantation of trees along the entire length of the meridian arc in France. Several missing Arago medallions appear to have been replaced with the newer 'An 2000 — La Méridienne Verte' markers.

Esoteric interpretations[edit]

In certain circles, some kind of occult or esoteric significance is ascribed to the Paris meridian; sometimes it is even perceived as a sinister axis. Dominique Stezepfandts, a French conspiracy theorist, attacks the Arago medallions that supposedly trace the route of "an occult geographical line"; to him the Paris meridian is a "Masonic axis" or even "the heart of the Devil."

Henry Lincoln, in his book The Holy Place, argues that various ancient structures are aligned according to the Paris meridian. They even include medieval churches, built long before the meridian was established according to conventional history, and Lincoln finds it obvious that the meridian "was based upon the 'cromlech intersect division line'." David Wood, in his book Genisis, likewise ascribes a deeper significance to the Paris meridian and takes it into account when trying to decipher the geometry of the myth-encrusted village of Rennes-le-Château: The meridian passes about 350 meters (1,150 ft) west of the site of the so-called "Poussin tomb," an important location in the legends and esoteric theories relating to that place. (A skeptical discussion of these theories, including the supposed "alignments," can be found in Bill Putnam and Edwin Wood's book The Treasure of Rennes-le-Château - A mystery solved.)

See also[edit]

External links[edit]

Coordinates: 48°50′0″N 2°20′14.025″E / 48.83333°N 2.33722917°E / 48.83333; 2.33722917

References[edit]

  1. http://www.thegreenwichmeridian.org/tgm/articles.php?article=10
  1. ^ a b c Paul., Murdin, (2009). Full meridian of glory : perilous adventures in the competition to measure the Earth. New York: Copernicus Books/Springer. ISBN 9780387755335. OCLC 314175913. 
  2. ^ Wolf, Charles (1827-1918) Auteur du texte (1902). Histoire de l'Observatoire de Paris, de sa fondation à 1793 / par C. Wolf,.. Paris: Gauthier-Villars. pp. 1–12. 
  3. ^ a b LAGARDE, LUCIE. "Historique du problème du Méridien origine en France". Revue d'histoire des sciences (in French). 32 (4): 289–304. doi:10.3406/rhs.1979.1638. 
  4. ^ a b c d Torge, Wolfgang (2015). IAG 150 Years. Springer, Cham. pp. 3–18. doi:10.1007/1345_2015_42. 
  5. ^ a b c d Martin, Jean-Pierre; McConnell, Anita (2008-12-20). "Joining the observatories of Paris and Greenwich". Notes and Records. 62 (4): 355–372. doi:10.1098/rsnr.2008.0029. ISSN 0035-9149. 
  6. ^ a b c Lebon, Ernest (1846-1922) Auteur du texte (1899). Histoire abrégée de l'astronomie / par Ernest Lebon,.. Paris: Gauthier-Villars. pp. 165, 168–169, 171. 
  7. ^ "ETH-Bibliothek Zürich / Base du système métrique décimal ou mesure de l'arc du méridien.." doi:10.3931/e-rara-11803. 
  8. ^ "Earth, Figure of the". 1911 Encyclopædia Britannica. Volume 8. 
  9. ^ J. Bertrand, Académie des sciences (France) Auteur du (1891-01-01). Comptes rendus hebdomadaires des séances de l'Académie des sciences / publiés... par MM. les secrétaires perpétuels. Notice sur le général Ibáñez, correspondant de l'Académie. Paris: Gauthier-Villars. pp. 266–269 p. 267. 
  10. ^ a b Perrier, Académie des sciences (France) Auteur du (1879-07-01). Comptes rendus hebdomadaires des séances de l'Académie des sciences / publiés... par MM. les secrétaires perpétuels. Géodésie. - Jonction géodésique de l'Algérie avec l'Espagne, opération internationale exécutée sous la direction de MM. le général Ibañez et F. Perrier. Paris: Gauthier-Villars. pp. 885–889. 
  11. ^ a b c d e f Clarke, A. R.; James, Henry (1867-01-01). "Abstract of the Results of the Comparisons of the Standards of Length of England, France, Belgium, Prussia, Russia, India, Australia, Made at the Ordnance Survey Office, Southampton". Philosophical Transactions of the Royal Society of London. 157: 161–180. doi:10.1098/rstl.1867.0010. ISSN 0261-0523. 
  12. ^ Clarke, A. R.; James, Henry (1873-01-01). "Results of the Comparisons of the Standards of Length of England, Austria, Spain, United States, Cape of Good Hope, and of a Second Russian Standard, Made at the Ordnance Survey Office, Southampton". Philosophical Transactions of the Royal Society of London. 163: 445–469. doi:10.1098/rstl.1873.0014. ISSN 0261-0523. 
  13. ^ a b c d e f g Torge, Wolfgang (2015). IAG 150 Years. Springer, Cham. pp. 3–18. doi:10.1007/1345_2015_42. 
  14. ^ "International Bureau of Weights and Measure Intergovernmental Organisation with headquarters located in Sèvres, France" (PDF). Bureau International des Poids et Mesures. 
  15. ^ a b c Soler, T. (1997-02-01). "A profile of General Carlos Ibáñez e Ibáñez de Ibero: first president of the International Geodetic Association". Journal of Geodesy. 71 (3): 176–188. doi:10.1007/s001900050086. ISSN 0949-7714. 
  16. ^ a b "The Greenwich Meridian - where east meets west: International Meridian Conference (1884)". www.thegreenwichmeridian.org. Retrieved 2017-10-02.