Discrepant Measurements and Experimental Knowledge in the Early Modern Era

Primary

1. Anon. (1708). ``[Procès verbaux report on Jacques Cassini's use of eclipse data to compute meridional distances from Paris].'' Procès Verbaux de l'Académie Royale des Sciences.

2. Bacon, F. (1819). The Works of Francis Bacon, London, C. and J. Rivington.

3. Baily, F. (1845). ``The catalogues of Ptolemy, Ulugh Beigh, Tycho Brahe, Halley, Hevelius, deduced from the best authorities. With various notes and corrections and a preface to each catalogue''. In The Catalogue of Stars of the British Association for the Advancement of Science; containing the mean right Ascensions and North Polar Distances of 8377 Fixed Stars, Reduced to January 1,1850., F. Baily, ed., London, J. E. Taylor.

4. Bartholini, E. (1669). Experimenta Crystalli Islandici Disdiaclastici Quibus mira & insolita Refraction detegitur, Hafniae, Danielis Paulli.

5. Birch, T. (1968). The History of the Royal Society of London for Improving of Natural Knowledge from its First Rise, New York, Johnson Reprint Corp.

6. Bodin, J. (1591). Ioan. Bodini Andegavensis De Republic Libri Sex; Latine; Ab Auctore redditi, multo quam antea locupletiores, Frankfurt, Wechel & Fischer.

7. Borda, J. C. d. (1787). Description et usage du cercle de réflexion; avec différentes méthodes pour calculer les observations nautiques, Paris, Chez Didot fils Aîné.

8. Boscovich, R. J. (1755). De Litteraria Expeditione per Pontificiam ditionem ad dimetiendas duas Meridiani gradus, Rome, Palladis.

9. Boscovich, R. J. and C. Maire (1770). Voyage astronomique et géometrique, dans létat de l'église, Paris, N. M. Tilliard.

10. Boyle, R. (1662). A Defence of the Doctrine Touching the Spring and Weight of the Air, London, Thomas Robinson.

11. Boyle, R. (2006). The Boyle Papers Online, The Boyle Project.

12. Brahe, T. (1598). Astronomiae Instauratae Mechanica, Wandesburgi.

13. Brahe, T.(1602 (1969)). Astronomiae Instauratae Progymnasmata, Uraniburgi Daniae, Bragae Boehmiae.

14. Brahe, T. (1913–1929). Tychonis Brahe Dani Opera Omnia, Hauniae, Libraria Gyldendaliana.

15. Cassini, J.-D. (1708). ``Sur un globe céleste construit par rapport au mouvement des etoiles fixes.'' Histoire de l'Académie des Sciences: 93–97.

16. Cassini IV, J.-D., P.-F.-A. Méchain, et al. (1790). Exposé des opérations faites en France en 1787, pour la jonction des observatoires de Paris et de Greenwich, Paris, Institution des Sourds- Muets.

17. Chapman, A., Ed. (1982). The preface to John Flamsteed's Historia coelestis Britannica, or British catalogue of the heavens (1725). London, Trustees of the National Maritime Museum.

18. D'Orléans, C. (1671). La dioptriqve ocvlaire, ou La théoriqve, la positive, et la méchanique, de l'oculaire dioptrique en toutes ses especes, Paris, Thomas Jolly & Simon Benard.

19. Delambre, J. B. and A. Méchain (1806–1810). Base du système métrique décimal, ou, Mesure de l'arc du méridien compris entre les parallèles de Dunkerque et Barcelone, exécutée en 1792 et années suivantes, Paris, Baudoin.

20. Derham, W. (1713). Physico-theology, or, A demonstration of the being and attributes of God from his works of creation, London, W. Innys.

21. Euler, L. (1753). Theorie motus lunae, exhibens omnes eius inaequalitates in additamento hoc idem argumentum aliter tractatur simulque ostenditur quaemadmodum motus lunae cum omnibus inaequalitatibus innumeris aliis modis representari atque ad calculum reuocari possit St. Peteresburg, Impensis Academiae Imperialis Scientiarum.

22. Fontenelle, B. d. (1740). Éloges des Académiciens, avec l'Histoire de L'Académie Royale des Sciences en 1699. Avec un Discours Préliminaire sur l'utilité des Mathématiques, La Haye, Isaac vander Kloot.

23. Forbes, E. G., L. Murdin, et al., Eds. (1995-). The correspondence of John Flamsteed, the first astronomer royal. Philadelphia, Institute of Physics.

24. Galileo (1632 (1962)). Dialogue Concerning the Two Chief World Systems. Tr. S. Drake, Berkeley and Los Angeles, University of California Press.

25. Graunt, J. (1662). Natural and Political Observations Mentioned in a following Index and made upon the Bills of Mortality, London, John Martin et al.

26. Hall, M. B. (1966). Robert Boyle on Natural Philosophy. An Essay with Selections from His Writings, Bloomington, Indiana University Press.

27. Halley, E. (1693). ``An estimate of the degrees of the mortality of mankind, drawn from curious tables of the births and funerals at the city of Breslaw; with an attempt to ascertain the price of annuities upon lives.'' Philosophical Transactions 17: 596–610.

    Google Scholar 

28. Hevelius, J. (1673). Machinae Coelestis Pars Prior: Organographiam, sive Instrumentorum Astronomicorum omnium, Gdansk, S. Reiniger.

29. Hevelius, J. (1679). Machinae Coelestis Pars Posterior: Rerum Uranicarum Observationes, Gdansk, S. Reiniger.

30. Hevelius, J. (1685). Annus Climactericus, sive rerum uranicarum observationum, Gdansk, D. F. Rhetii.

31. Hooke, R. (1665). Micrographia: or some Physiological Descriptions of Minute Bodies made by Magnifying Glasses with Observations and Inquiries thereupon, London, John Martyn.

32. Hooke, R. (1674a). An Attempt to prove the Motion of the Earth from Observations made by Robert Hooke, London, John Martyn.

33. Hooke, R. (1674b). Animadversions on the first part of the Machina Coelestis of the Honorable, Learned, and deservedly Famous Astronomer Johannes hevelius, Consul of Dantzick; Together with an Explication of some Instruments made by Robert Hooke, Professor of Geometry in Gresham College, and Fellow of the Royal Society, London, John Martyn.

34. Hooke, R. (1679). Lectiones Cutlerianae, or a Collection of Lectures Physical, Mechanical, Geographical, & Astronomical. Made before the Royal Society on several Occasions at Gresham Colledge. To which are added divers Miscellaneous Discourses, London, John Martyn.

35. Hubin, E. (1673). Machines nouvellement executées et en partie inventées, Paris, J. Cusson.

36. Hunter, M., A. Clericuzio, and L. Principe, Eds. (2001). The Correspondence of Robert Boyle. London, Pickering & Chatto.

37. Hunter, M. and E. B. Davis, Eds. (1999). The Works of Robert Boyle. London, Pickering & Chatto.

38. Huygens, C. (1690). Traité de la Lumière, Leiden.

39. Huygens, C. (1690 (1952)). ``Treatise on Light''. In Newton Huygens, R. M. Hutchins, ed., Chicago, Encyclopaedia Britannica, Inc. Vol. 34.

40. Huygens, C. (1698a). Cosmotheoros sive De Terris Coelestibus, earumque ornatu, Conjecturae., The Hague, Adrian Moetjens.

41. Huygens, C. (1698b). The Celestial Worlds Discover'd: or, Conjectures Concerning the Inhabitants, Plants and Productions of the Worlds in the Planets, London, Timothy Childe.

42. Huygens, C. (1703). Christiani Hugenii Opuscula Posthuma, Lugduni Batavorum, C. Boutesteyn.

43. Huygens, C. (1937). Oeuvres Complètes de Christiaan Huygens, Société Hollandaise des Sciences, ed., La Haye, Martinus Nijhoff.

44. Kepler, J. (1992). New Astronomy [Astronomia Nova]. Tr. W. H. Donohue, Cambridge, Cambridge University Press.

45. Kepler, J. (1997 (1619)). The Harmony of the World [Harmonice Mundi]. Tr. E. J. Aiton, A. M. Duncan and J. V. Field, Philadelphia, The American Philosophical Society.

46. MacPike, E. F., Ed. (1932). Correspondence and Papers of Edmond Halley. Oxford, The Clarendon Press.

47. Mariotte, E. (1678). Essay de Logique contenant Les Principes des sciences, & la manière de s'en servir pour faire de bons raisonnemens, Paris, Estienne Michallet.

48. Mariotte, E. (1679). De la Nature de l'Air. Second essay of the Essays de physique, ou, Mémoires pour servir à la science des choses naturelles, Paris, Estienne Michallet.

49. Mayer, T. (1767). Theoria lunae juxta systema Newtonianum, London, G. Richardson and S. Clark.

50. Newton, I. (1728). The Chronology of Ancient Kingdoms Amended. To which is prefix'd, a short chronicle from the first memory of things in Europe, to the conquest of Persia by Alexander the Great, London, Printed for J. Tonson [etc.].

51. Oldenburg, H. (1670/1). ``An account of sundry experiments made and communicated by that learn'd mathematician, Dr. Erasmus bartholin, upon a crystal-like body, sent to him out of Island.'' Philosophical Transactions of the Royal Society of London 63: 2039–2048.

52. Parent, A. (1700). Elemens de méchanique et de physique. Où l'on donne geométriquement les principes du choc & des equilibres entre toutes sortes de corps. Avec l'explication naturelle des machines fondamentales., Paris, Florentin & Pierre Delaulne.

53. Parent, A. (1708a). ``[Fontenelle's report on Parent's experiments to examine the Mariotte law].'' Histoire de l'Academie Royale des Sciences 10: 16–18.

    Google Scholar 

54. Parent, A. (1708b). ``[Scribal report on Parent's experiments to examine the Mariotte law].'' Procès-verbaux de l'Académie Royale des Sciences 27: fols. 253r–255v.

    Google Scholar 

55. Prince, C. L. (1882). The Illustrated Account given by Hevelius of the method of mounting and erecting an Observatory. Reprinted from an original copy, with some remarks.

56. Ptolemy (1998). Ptolemy's Almagest. Tr. G. J. Toomer, Princeton, Princeton University Press.

57. Riccioli, G. B. (1651). Almagestum novum astronomiam veterem novamque complectens, Bononiae, Typographia haeredis Victorii Benatii.

58. Rigaud, S. P., Ed. (1832 (1972)). Miscellaneous Works and Correspondence of James Bradley. New York and London, Johnson Reprint Corporation.

59. Robinson, H. W. and W. Adams, Eds. (1968). The Diary of Robert Hooke M.A., M.D., F.R.S. 1672–1680. Transcribed from the original in the possession of the corporation of the City of London (Guildhall Library). London, Wykeham Publications Ltd.

60. Simpson, T. (1755). ``A Letter to the Right Honourable George Earl of Macclesfield, President of the Royal Society, on the Advantage of taking the Mean of a Number of Observations, in practical Astronomy.'' Philosophical Transactions of the Royal Society of London (1683–1775) 49: 82–93.

61. Süssmilch, J. P. (1741). Die göttliche Ordnung in den Veränderungen des menschlichen Geschlechts aus der Geburt, Tod, und Fortpflanzung desselben, Berlin, J. C. Spener.

62. Townley, R. (1694). ``A Letter from Richard Townley, of Townley in Lancashire, Esq; COntaining Observations on the Quantity of Rain Falling Monthly, for Several Years Successively.'' Philosophical Transactions of the Royal Society of London (1683–1775) 18: 51–58.

63. unknown (1954). Ad C. Herennium de ratione dicendi (Rhetorica ad Herennium). Tr. H. Caplan, Cambridge, Harvard University Press.

Secondary

1. Alder, K. (2002). The Measure of All Things. The Seven-Year Odyssey and Hidden Error that Transformed the World, New York, The Free Press.

2. Anstey, P. (2005). ``Boyle and Mariotte on the spring of the air.'' MS.

3. Archibald, T., J. Z. Buchwald, et al. (1991). ``Erasmus Bartholin. Experiments on Birefringent Icelandic Crystal. With a Facsimile of the Original Publication 1669.'' Acta Historica Scientarum Naturalium et Medicinalium 40.

4. Baily, F. (1835). An account of the Revd. John Flamsteed, the first astronomer-royal : compiled from his own manuscripts, and other authentic documents, never before published ; to which is added his British catalogue of stars, corrected and enlarged, London, Printed by order of the Lords Commissioners of the Admiralty.

5. Bennett, J. (1987). The Divided Circle: a History of Instruments for Astronomy, Navigation and Surveying, Oxford, Phaidon Christie's.

6. Bennett, J. (1989). Le Citoyen Lenoir. Scientific instrument making in revolutionary France., Cambridge, Whipple Museum of the History of Science.

7. Bennett, J. (2003). ``Hooke's instruments''. In London's Leonardo. The Life and Work of Robert Hooke, J. Bennett, M. Cooper, M. Hunteret al, ed., Oxford, Oxford University Press: 63–104.

8. Berger, A. (1953). ``Encyclopedic Dictionary of Roman Law.'' Transactions of the American Philosophical Society 43: 335–808.

   Google Scholar 

9. Boas–Hall, M. (1986). ``L'Élasticité de l'Air Avant Mariotte et en Angleterre''. In Mariotte, Savant et Philosophe (d. 1684). Analyse d'Une Renommée, P. Costabel, ed., Paris, Vrin: 55–63.

10. Brooks, R. (1991). ``The development of micrometers in the seventeenth, eighteenth and nineteenth centuries.'' Journal for the History of Astronomy 22.

11. Brown, H. I. (1985). ``Galileo on the telescope and the eye.'' Journal of the History of Ideas 46: 487–501.

    Google Scholar 

12. Buchwald, J. Z. (1980). ``Experimental investigations of double refraction from Huygens to Malus.'' Archive for History of Exact Sciences 21: 311–73.

    Google Scholar 

13. Buchwald, J. Z. (2006). ``Huygens' methods for determining optical parameters in birefringence.'' Archive for History of Exact Sciences (forthcoming).

14. Burnett, D. G. (2005). Descartes and the Hyperbolic Quest. Lens making machines and their significance in the seventeenth century, American Philosophical Society.

15. Chapman, A. (1990). Dividing the circle: the development of critical angular measurement in astronomy 1500–1850, New York, E. Horwood.

16. Clarke, F. M. (1929). Thomas Simpson and His Times. Faculty of Philosophy. New York, Columbia University.

17. Cook, A. (1997). ``Edmond Halley and John Flamsteed''. In Flamsteed's Stars, F. Willmoth, ed., Suffolk, UK, Boydell Press: 167–187.

18. Cook, A. (1998). Edmond Halley: Charting the Heavens and the Seas, Oxford, The Clarendon Press.

19. Costabel, P. (1986). ``La loi de Boyle-Mariotte''. In Mariotte, Savant et Philosophe (d. 1684). Analyse d'Une Renommée, P. Costabel, ed., Paris, Vrin: 65-73.

20. Davies, B. (1974). ``Edme Mariotte 1620–1684.'' Physics Education 9: 275-8.

21. Dear, P. (1990). ``Miracles, experiments, and the ordinary course of nature.'' Isis 81: 663–683.

    Google Scholar 

22. Dear, P. (1998). ``Method and the study of nature''. In The Cambridge History of Seventeenth Century Philosophy, D. Garber and M. Ayers, ed., Cambridge, Cambridge University Press. 1: 147–177.

23. Dijksterhuis, F. (2004). Lenses and Waves. Christiaan Huygens and the Mathematical Science of Optics in the Seventeenth Century, Series Archimedes Dordrecht, Kluwer Academic Publishers.

24. Dreyer, J. L. E. (1977). Tycho Brahe: a Picture of Scientific Life and Work in the XVIth Century, Gloucester, MA, Peter Smith.

25. Eisenhart, C. (1975). ``Discussion of ``Bienaymé'' by C. C. Heyde and E. Seneta and of ``J. Kepler as a Statistician'' by O. B. Sheynin.'' Bulletin of the International Statistical Institute 46, Book 2: 355–357.

26. Elzinga, A. (1972). On a Resarch Program in Early Modern Physics, Stockholm, Humanities Press, Inc.

27. Geisler, W. S. (1984). ``Physical limits of acuity and hyperacuity.'' Journal of the Optical Society of America 1: 775–782.

    Google Scholar 

28. Gunther, R. T. (1930 (1968)). Early Science in Oxford, Oxford, Oxford University Press. Reprinted London, Dawson's of Pall Mall.

29. Hahn, R. (1971). The Anatomy of a Scientific Institution. The Paris Academy of Sciences, 1666-1803, Berkeley, University of California Press.

30. Hald, A. (2003). History of Probability and Statistics and Their Applications before 1750, Hoboken, NJ, John WIley & Sons.

31. Heilbron, J. (1993). ``Weighing Imponderables and Other Quantitative Science Around 1800.'' Historical Studies in the Physical and Biological Sciences 24, Part 1: 1–337.

32. Helden, A. C. v. and R. H. v. Gent (1999). ``The lens production by Christiaan and Constantijn Huygens.'' Annals of Science 56: 69–79.

    Google Scholar 

33. Hunter, M. (2003). ``Hooke the natural philosopher''. In London's Leonardo. The Life and Work of Robert Hooke, J. Bennett, M. Cooper, M. Hunteret al, ed., Oxford, Oxford University Press: 105–162.

34. Inwood, S. (2002). The Man Who Knew Too Much. The Strange and Inventive Life of Robert Hooke 1635–1703, London, Macmillan.

35. Jardine, L. (2003). ``Hooke the man: his diary and his health''. In London's Leonardo. The Life and Work of Robert Hooke, J. Bennett, M. Cooper, M. Hunteret al, ed., Oxford, Oxford University Press: 163–206.

36. King, H. C. (1955 (1979)). The History of the Telescope, New York, Dover Publications, Inc.

37. Landes, D. (1983). Revolution in Time, Cambridge, MA, The Belknap Press of Harvard University Press.

38. Leopold, J. H. (1980). ``Christiaan Huygens and his instrument makers''. In Studies on Christiaan Huygens, H. J. M. Bos, M. J. S. Rudwick, H. A. M. Snelderset al, ed., Lisse, Swets & Zeitlinger B. V.: 221–233.

39. MacPike, E. F. (1937). Hevelius, Flamsteed and Halley, London, Taylor and Francis.

40. Maeyama, Y. (2002). ``Tycho Brahe's stellar observations. An accuracy test''. In Tycho Brahe and Prague: Crossroads of European Science, J. R. Christianson, A. Hadravova, P. Hadravaet al. Series Acta Historiae Astronomiae, ed. W. R. Dick and J. Hamel, Frankfurt, Verlag Harri Deutsch. 16: 113–119.

41. Mahoney, M.S. (1980). ``Christiaan Huygens: The measurement of time and longitude at sea''. In Studies on Christiaan Huygens, H. J. M. Bos, M. J. S. Rudwick, H. A. M. Snelderset al, ed., Lisse, Swets & Zeitlinger B. V.: 234–270.

42. Mahoney, M.S. (2004). ``Drawing mechanics''. In Picturing Machines 1400–1700, W. Lefevre. Series Transformations, ed. J. Z. Buchwald, Cambridge, MIT: 281–306.

43. McKeon, R. M. (1971). ``Les debuts de l'astronomie de précision. I. Histoire de la réalisation du micromètre astronomique.'' Physis 13: 225–288.

    Google Scholar 

44. Meli, D. B. (2004). ``The role of numerical tables in Galileo and Mersenne.'' Perspectives on Science 12: 164–189.

    Google Scholar 

45. Newman, W. R. (2006). Atoms and Alchemy. Chymistry & the Experimental Origins of the Scientific Revolution, Chicago, The University of Chicago Press.

46. Plackett, R. L. (1958). ``The principle of arithmetic mean.'' Biometrika 45: 130–135.

    Google Scholar 

47. Popkin, R. (2003). The History of Skepticism, Oxford, Oxford University Press.

48. Price, D. (1957). ``Precision instruments to 1500''. In A History of Technology, C. Singer, ed., Oxford, Oxford University Press. III: 582–619.

49. Principe, L. M. (1998). The Aspiring Adept. Robert Boyle and His Alchemical Quest., Princeton, Princeton University Press.

50. Sargent, R.-M. (1995). The Diffident Naturalist. Robert Boyle and the Philosophy of Experiment, Chicago, The University of Chicago Press.

51. Saridakis, V. (2001). Converging Elements in the Development of Late Seventeenth-Century Disciplinary Astronomy: Instrumentation, Education, Networks, and the Hevelius-Hooke Controversy. Blacksburg, VA, Virginia Polytechnic Institute.

52. Schliesser, E. and G. E. Smith (1996). ``Huygens' 1688 report to the Directors of the Dutch East India Company on the measurement of longitude at sea and its implications for the non-uniformity of gravity.'' De zeventiende eeuw 12: 198–214.

    Google Scholar 

53. Shaffer, S. and S. Shapin (1985). Leviathan and the Air-Pump, Princeton, Princeton University Press.

54. Shapin, S. (1995). A Social History of Truth, Chicago, The University of Chicago Press.

55. Shapiro, A. E. (1973). ``Kinematic optics: a study of the wave theory of light in the seventeenth century.'' Archive for History of Exact Sciences 11: 134–266.

56. Shapiro, A. E. Ed. (1984). The Optical Papers of Isaac Newton. The Optical Lectures. 1670–1672. Cambridge, Cambridge Unviersity Press.

57. Shapiro, A. E. (1989). ``Huygens' 'Traité de la lumière' and Newton's 'Opticks': pursuing and eschewing hypotheses.'' Notes and Records of the Royal Society of London 43: 223–247.

    Google Scholar 

58. Shapiro, A. E. (2003). ``Newton's optical notebooks: public versus private data''. In Reworking the Bench, F. L. Holmes, J. Renn and H.-J. Rheinberger. Series Archimedes, ed. J. Z. Buchwald, Dordrecht, Kluwer Academic Publishers. 7: 43–66.

59. Sheynin, O. B. (1973). ``Mathematical treatment of astronomical observations (a historical essay).'' Archive for History of Exact Sciences 11: 97–126.

    Google Scholar 

60. Stigler, S. (2003). The History of Statistics. The Measurement of Uncertainty before 1900, Cambridge, MA, Harvard University Press.

61. Stigler, S. M. (1984). ``Boscovich, Simpson and a 1760 manuscript note on fitting a linear relation.'' Biometrika 71: 615–20.

    Google Scholar 

62. Swerdlow, N. M. (1996). ``Astronomy in the Renaissance''. In Astronomy Before the Telescope, C. Walker, ed., New York, St. Martin's Press: 187–230.

63. Turner, A. J. (1989). From Pleasure and Profit to Science and Security. Etienne Lenoir and the transformation of precision instrument-making in France 1760–1830, Cambridge, The Whipple Museum of the History of Science.

64. Véron, J. and J.-M. Rohrbasser (2000). ``Lodewijk et Christiaan Huygens: la distinction entre vie moyenne et vie probable.'' Mathématiques et Sciences Humaines 38: 7–21.

    Google Scholar 

65. Volkoff, I., E. Franzgrote, et al. (1971). Johannes Hevelius and his Catalog of Stars, Provo, Utah, Brigham Young University Press.

66. Webster, C. (1965). ``The discovery of Boyle's law and the concept of the elasticity of air in the seventeenth century.'' Archive for History of Exact Sciences 2: 441–502.

    Google Scholar 

67. Wolf, A. (1935). A History of Science, Technology, and Philosophy in the 16th & 17th Centuries, New York, MacMillan.

68. Yoder, J. (1988). Unrolling Time. Christiaan Huygens and the mathematization of nature., Cambridge, Cambridge University Press.

69. Zinner, E. (1979). Deutsche und niederlandische astronomische Instrumente des 11.-18. Jahrhunderts, Munich, Beck.

Download references