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The Almanacs—Yesterday, Today and Tomorrow

Published online by Cambridge University Press:  23 November 2009

P. K. Seidelmann
Affiliation:
(U.S. Naval Observatory)
P. M. Janiczek
Affiliation:
(U.S. Naval Observatory)
R. F. Haupt
Affiliation:
(U.S. Naval Observatory)

Extract

Fragments of documents and instruments identifiable as almanacs, together with the comments of ancient writers and the circumstances surrounding historical deeds indicate that almanacs have existed from the earliest attempts at the organization of time into units larger than the day. The value of such works to navigation was slight when voyages beyond sight of land were few and of short duration; nor were they readily available when books had to be hand copied. Yet the contents of almanacs had an influence on sailing; the average mariner, being neither more ignorant nor less superstitious than the merchant or farmer, was likewise subject to occult predictions when almanacs were in the hands of the astrologers.

Type
Two Centuries of Navigation—III
Copyright
Copyright © The Royal Institute of Navigation 1977

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References

REFERENCES

1Durant, Will (1957). The Story of Civilization: Part VI, The Reformation, Simon and Schuster, New York.Google Scholar
2Cotter, C. H. (1968). A History of Nautical Astronomy, American Elsevier, New York.Google Scholar
3Furnas, J. C. (1969). The Americans, A Social History of the United States 1587–1914, G. P. Putnam & Sons, New York.Google Scholar
4Moskowitz, Saul (1970). The method of lunar distances and technological advance. Navigation, 17, 2.CrossRefGoogle Scholar
5Sagendorph, Robb (1970). America and Her Almanacs, Yankee Inc., Dublin, N.H.Google Scholar
6Forbes, Eric G. (1965). The foundation and development of the Nautical Almanac. This Journal 18, 391.Google Scholar
7Sadler, D. H. (1968). The bicentenary of the Nautical Almanac. This Journal 21, 6.Google Scholar
8Maskelyne, Nevil (1766). Preface, Nautical Almanac and Astronomical Ephemeris for the year 1767, by Order of the Commissioners of Longitude, London.Google Scholar
9Dreyer, F. L. E. (ed.) (1923). History of the Royal Astronomical Society, Royal Astronomical Society, London.Google Scholar
10Hewson, J. B. (1951). A History of the Practice of Navigation, Brown, Son & Ferguson.Google Scholar
11Chichester, Francis (1966). Longitude without time. This Journal 19, 106.Google Scholar
12H. M. Nautical Almanac Office (1966). A modern view of lunar distances. This Journal 19, 131.Google Scholar
13Kerst, D. W. (19751976). Longitude without time. Navigation, 22, 4.CrossRefGoogle Scholar
14Newcomb, Simon (1895). The Elements of the Four Inner Planets and the Fundamental Constants of Astronomy, Supplement to The American Ephemeris and Nautical Almanac for 1897, Government Printing Office, Washington.Google Scholar
15(1929). The Aeronautical Supplement to the American Nautical Almanac, Lunar Ephemeris for Aviators, Government Printing Office, Washington.Google Scholar
16Eckert, W. J. (1944). Air Almanacs, Sky and Telescope, Vol. 4, No. 1, November.Google Scholar
17Haupt, R. F. (1946). Japanese Almanacs. Navigation 1, 4.CrossRefGoogle Scholar
18Mixter, George W. (1946). American Almanacs. Navigation, 1, 3.CrossRefGoogle Scholar
19Beito, Edwin A. (1949). New type 1950 Nautical Almanac. Navigation, 1, 4.Google Scholar
20Seidelmann, P. Kenneth (1976). Celestial Mechanics, Encyclopedia of Computer Science and Technology, Marcel Dekker, New York.Google Scholar
21Eckert, W. J. (1940). Punched card methods in scientific computation, The Thomas J. Watson Astronomical Computing Bureau, New York.Google Scholar
22Eckert, W. J. and Haupt, R. F. (1947). The printing of mathematical tables, Mathematical Tables and Other Aids to Computation, Vol. 2, No. 17.Google Scholar
23Duxbury, T. C. and Acton, C. H. (19721973). On board optical navigation data from Mariner 71, Navigation,19, 4.CrossRefGoogle Scholar
24Caligiuri, J. F. (1960). The navigation system for the Polaris submarine. Navigation, 7, 1.CrossRefGoogle Scholar
25Polhemus, W. L. (1960). Navigating the supersonic B-58, Navigation, 7, 2 and 3.CrossRefGoogle Scholar
26(1975). The use of hand-held pocket calculators for navigation. A discussion. This Journal 28, 466.Google Scholar
27Budlong, John D. (1975). Sky and Sextant, Practical Celestial Navigation, Van Nostrand Reinhold, New York.Google Scholar
28Hugon, P. (1975). Le point astronomique sans ephemerides. Navigation (Paris), Vol. XXIII, No. 92.Google Scholar
29Newcomer, K. E. (1975). Navigation applications of the HP-65 calculator. Navigation, 22, 2.CrossRefGoogle Scholar
30Feldman, S.et al. (19721973). Sight reduction using the portable sextant computer system. Navigation, 19, 4.CrossRefGoogle Scholar
31Hirsch, R. G. and Charlton, R. L. (1974). The Nav.-Aid: a calculator for navigation. Navigation, 31, 1.Google Scholar
32Van der Grinten, H. F. (1975). The accuracy of celestial fixes as compared to navsat positions by least squares adjustment. Navigation, 22, 2.CrossRefGoogle Scholar
33Feldman, S., Seidelmann, P. K. and Barton, G. G. (1974). Advances in celestial navigation, Naval Engineers Journal, August.CrossRefGoogle Scholar