Hostname: page-component-84b7d79bbc-4hvwz Total loading time: 0 Render date: 2024-07-28T06:40:22.487Z Has data issue: false hasContentIssue false
  • English
  • Français

A Centennial Tribute to Marcq St. Hilaire

Published online by Cambridge University Press:  23 November 2009

Charles H. Cotter
Get access Rights & Permissions [Opens in a new window]

Extract

Evidence exists which demonstrates that primitive attempts to employ astronomical principles for the purposes of navigation were made by Mediterranean seamen at least a thousand years before the beginning of the Christian Era. But the significant development of nautical astronomy as a science came about at the time when the Atlantic Ocean was being opened up by maritime explorers during the Golden Age of Discoveries, and the lead at the time was taken by the Portuguese under the sponsorship of Prince Henry the Navigator.

Type
Research Article
Information
The Journal of Navigation , Volume 28 , Issue 4 , October 1975 , pp. 449 - 460
Copyright
Copyright © The Royal Institute of Navigation 1975

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1 Reference to Homer's Odyssey reveals that the stars were used by seamen for navigational purposes at least as early as 1000 B.C.Google Scholar
2 The use of a timekeeper for finding longitude was described in print by Gemma Frisius in his De principiis astronomiae et cosmographiae, published in Antwerp in 1530; and Johannes Werner described the lunar method as early as 1514.Google Scholar
3vide Cotter, C. H. (1972). Navigational globes: ancient and modern. This Journal, 25, 345.Google Scholar
4 It is interesting to note that Nuñez played a leading role in the development of the mercator chart. His investigation of the nature of rhumb-lines appears to have led Mercator to the idea of constructing his famous world map of 1569, Nova et aucta orbis terrae descriptio ad usum navigandium emendate accommodata, a title implying that it was designed for navigators.Google Scholar
5Dunn, S. (1786). The Theory and Practice of Longitude at Sea (Second Edition). London.Google Scholar
6Lynn, T. (1827). Horary Tables. London.Google Scholar
7Sumner, T. (1843). A New and Accurate Method for Finding the Bearing of the Land … Boston.Google Scholar
8Raper, H. (1844). On Captain Sumner's Method of Determining the Position of a Ship. Nautical Magazine, p. 205.Google Scholar
9Anon. (1880). The New Navigation and Sumner's Method. Nautical Magazine, 49, 24, 107, 205.Google Scholar
10vide Cotter, C. H. (1968). A History of Nautical Astronomy. London and New York. pp. 275278.Google Scholar
11de Magnac, A. and Villarceau, Y. (1877). Nouvelle Navigation Astronomique. Paris.Google Scholar
12Shadwell, C. F. A. (1861). Notes on the Management of Chronometers (new edition). London.Google Scholar
13Lieussou, A. (1854). Recherches sur les Variations de la Marche des Chronomètres. Paris.Google Scholar
14du Boisy, M. le Compte (1881). The New Astronomical Navigation. Nautical Magazine, 50, 512, 674, 854.Google Scholar
15de Magnac, A. (1874). Recherches sur l'emploi des Chronomètres à la mer. Paris.Google Scholar
16Hilleret, G. (1874). Étude sur les courbes de hauteur … Revue Maritime et Coloniale, 30.Google Scholar
17Marcq St. Hilaire, A. (1873). Note sur la détermination du point. Revue Maritime et Coloniale, 29, 41.Google Scholar
18Marcq St. Hilaire, A. (1875). Calcul du point observé. Revue Maritime et Coloniale, 31, 341, 714.Google Scholar
19Duval, R. Ch. (1966). Admiral Marcq de Blond de St. Hilaire. This Journal, 19, 209.Google Scholar