TuckermanB., “Planetary, lunar and solar positions: 601 b.c. to a.d. 1”, Memoirs of the American Philosophical Society, lvi (1962); “Planetary lunar and solar positions: A.d. 2 to a.d. 1649”, ibid., lix (1964).
2.
Le VerrierU. J. J., “Théorie et tables du mouvement apparent du Soleil”, Annales de l'Observatoire de Paris, iv (1858); “Théorie et tables du mouvement de Mercure”, ibid., v (1859); “Théorie et tables du mouvement de Vénus”, ibid., vi (1861); “Théorie et tables du mouvement de Mars”, ibid., vi (1861).
3.
GaillotM. A., “Tables rectifiées du mouvement de Saturne”, Annales de l'Observatoire de Paris, xxiv (1904); “Tables rectifiées du mouvement de Jupiter”, ibid., xxxi (1913).
4.
NewcombS., “Tables of the motion of the Earth on its axis and around the Sun”, Astronomical papers prepared for the use of the American Ephemeris and Nautical Almanac, vi, part I (1895); “Tables of the heliocentric motion of Mercury”, ibid., vi, part II (1895); “Tables of the heliocentric motion of Vénus”, ibid., vi, part III (1895).
5.
RossF. E., “New elements of Mars and tables for correcting the heliocentric positions derived from Astronomical papers, vi, part IV”, Astronomical papers prepared for the use of the American Ephemeris and Nautical Almanac, ix, part II (1917).
6.
HillG. W., “Tables of Jupiter, constructed in accordance with the methods of Hansen”, Astronomical papers prepared for the use of the American Ephemeris and Nautical Almanac, vii, part I (1895); “Tables of Saturn, constructed in accordance with the methods of Hansen”, ibid., vii, part II (1895).
7.
StephensonF. R. and HouldenM. A., “The accuracy of Tuckerman's solar and planetary tables”, Journal for the history of astronomy, xii (1981), 133–8.
8.
HuberP. J., book review: “Planetary positions”, Journal for the history of astronomy, xiv (1983), 228.
9.
BretagnonP., “Théorie du mouvement de l'ensemble des planètes: Solution VSOP82”, Astronomy and astrophysics, cxiv (1982), 278–88.
10.
SimonJ. L., “Théorie du mouvement des quatre grosses planètes: Solution TOP82”, Astronomy and astrophysics, cxx (1983), 197–202.
11.
SimonJ. L. and BretagnonP., “Théorie du mouvement de Jupiter et Saturne sur un intervalle de temps de 6000 ans: Solution JASON84”, Astronomy and astrophysics, cxxxviii (1984), 169–78.
12.
LaskarJ., “Théorie générale planétaire: éléments orbitaux des planètes sur un million d'années”, Thèse de 3e cycle, Observatoire de Paris (1984).
13.
NewhallX. X.StandishE. M. and WilliamsJ. G., “DE102: A numerically integrated ephemeris of the Moon and planets spanning forty-four centuries”, Astronomy and astrophysics, cxxv (1983), 150–67.
14.
MorrisonL. V. and StephensonF. R., “Secular and decade fluctuations in the Earth's rotation: 700 bc — ad 1978”, in Sun and planetary system, ed. by FrickeW. and TelekiG. (Dordrecht and Boston, 1982), 173–8.
15.
LieskeJ. H.LederleT.FrickeW. and MorandoB., “Expressions for the precession quantities based upon the iau (1976) system of astronomical constants”, Astronomy and astrophysics, lviii (1977), 1–16.
16.
LaskarJ., “Secular terms of classical planetary theories using the results of general theory”, submitted to Astronomy and astrophysics (1985).
17.
Stephenson and Houlden, op. cit. (ref. 7), 136.
18.
StandishE. M., “DE200”, magnetic tape (1982).
19.
NewhallStandish and Williams, op. cit. (ref. 13), 164.
20.
GingerichO. and WeltherB. L., “Planetary, lunar and solar positions, new and full moons, a.d. 1650–1805”, Memoirs of the American Philosophical Society, lix (1983), S.
