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‘O tempera, O magnes!’: A sociological analysis of the discovery of secular magnetic variation in 1634

Published online by Cambridge University Press:  05 January 2009

Stephen Pumfrey
Affiliation:
Department of History, University of Lancaster.

Extract

As sociologists learn more about how scientific knowledge is created, they give historians the opportunity to rework their accounts from a more contextual perspective. It is relatively easy to do so in areas with large theoretical, cosmological or overtly ideological components. It is more difficult, but equally necessary, to open up very empirical accomplishments, and recent sociological analysis of the process of science gives us some interesting insights. This paper employs some of these on the apparently unpromising subject of the ‘discovery of secular magnetic variation’ in 1634 by the Gresham professor Henry Gellibrand.

Type
Research Article
Copyright
Copyright © British Society for the History of Science 1989

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References

1 Waters, D.W., The Art of Navigation in England in Elizabethan and Early Stuart Times, London, 1958, pp. 422423Google Scholar; Taylor, E.G.R., The Mathematical Practitioners of Tudor and Stuart England, Cambridge, 1954, p. 73Google Scholar; Hanson, N.R., Patterns of Discovery: an inquiry into the Conceptual Foundation of Science, Cambridge, 1958, p. 22.Google Scholar

2 Gellibrand, H., A Discourse Mathematical on the Variation of the Magnetic Needle, London, 1635Google Scholar, reprinted in Hellman, G., (ed.), Neudrucke von Schriften und Karten uber Meteorologie and Erdmagnetismus, Berlin, 1897, pp. 1617.Google Scholar

3 Waters, , op. cit. (1), Navigation, p. 161.Google Scholar

4 The concept is put to use in an historical dispute in Shapin, S. and Schaffer, S., Leviathan and the Air Pump. Hobbes, Boyle and the Experimental Life, Princeton, 1985Google Scholar, especially chapters I and II.

5 See Barnes, B., Interests and the Growth of Knowledge, London, 1977.Google Scholar

6 Collins, H.M., Changing Order. Replication and Induction in Scientific Practice, London, 1985, Chapter IV.Google Scholar

7 Collins, , op. cit. (6)Google Scholar, Changing Order, makes this point, p. 27, n. 18.Google Scholar

8 Collins, , op. cit. (6), Changing Order, chapter III.Google Scholar

9 This is discussed in detail in Section VI below.

10 Singer, C. et al. , (eds), A History of Technology, vol. iii, Oxford, 1957, p. 450.Google Scholar

11 Digges, T., A Perfit Description of the Celestiall Orbs, London, 1576. signature Plr.Google Scholar

12 Taylor, E.G.R., The Havenfinding Art. A History of Navigation from Odysseus to Captain Cook, London, 1956, p. 184.Google Scholar

13 For Borough see Waters, , op. cit. (1)Google Scholar, Navigation, p. 161Google Scholar; Observation from Wright (1610), p. Ppv. Mariner's attitudes are discussed in Waters, , op. cit. (1), Navigation, pp. 58f.Google Scholar

14 de Medina, P., Arte de Navegar, Valladolid, 1545.Google Scholar The English translation, by John Frompton, did not supplant Matin Cortes's work of the same title, translated by Richard Eden (London, 1561). Cortes attributed variation to some ‘motive force beyond the heavens’, according to Gilbert. See Gilbert, W., De Magnete trs. Mottelay, P. Fleury (1893; reprint edn, New York, 1957), p.232.Google Scholar All references to De Magnete are to this edition.

15 This is discussed in the second part of section VII below.

16 Waters, , op. cit. (1), Navigation, p. 292.Google Scholar

17 Ibid.., p. 307.

18 See the second part of Section VII below.

19 Seen. 16.

20 He claimed that only Henry Wynne's needles were good enough, in the London Gazette of September 1677. See Schaffer, S., ‘Henry Bond and the Problem of Longitude’ (B.A. dissertation, Univ. of Cambridge, 1975), p. 32.Google Scholar

21 Or so Descartes thought. I discuss this in the second part of Section VII.

22 Pumfrey, S., ‘Mechanizing Magnetism in Restoration England—the Decline of Magnetic Philosophy’, Annals of Science (1987), 44, pp. 122.CrossRefGoogle Scholar

23 Taylor, , op. cit. (12), Havenfinding Art, p. 184.Google Scholar

24 Polter, R., The Pathway to Perfect Sailing, London, 1605.Google Scholar No copies of this survive. For information see Taylor, , op. cit. (1), Mathematical Practitioners, p. 338Google Scholar, and Waters, , op. cit. (1), Navigation, vol i, p. 232.Google Scholar

25 For Stevin, see Waters, , op. cit. (1), Navigation, p. 230Google Scholar; for Borough see ibid.., p. 161.

26 Taylor, , op. cit. (12), Havenfinding Art, p. 205.Google Scholar

27 ‘[Experimentum] factum est, ut prudenter hanc quaestionem ipse declinarit, ne causam quaereret effectus, qui nusquam esset; et potuit suspicari ipse triginta ab hinc annis, aut quadraginta, quo tempore magnetum exercebat, ne ubique semper eodem modo declinaret gradibus 5 ad orientem.’ Cabeo, N., Philosophia Magnetica, Ferrara, 1629, p. 56.Google Scholar

28 Petit, P., Dissertatio de Latitudine Parisiensis eaque in urbe magnetica declinatione, adductis pluribus argumentis, quibus suspicari licet utram subinde variareGoogle Scholar, published as an appendix to du Hamel, J. B., Astronomia Physica, Paris, 1660.Google Scholar See Petit's Appendix, p. 30, ‘neque ulla declinationis diversitas apparuit.’

29 For economics see Hill, C., The Century of Revolution, 2nd edn, Walton-on-Thames, pp. 2933, 133136.Google Scholar For relation to navigation see Merton, R. K., Science, Technology and Society in Seventeenth-Century England, 1938 (reprint edn, New York, 1970)Google Scholar, chapter VII passim, especially pp. 165–175.

30 Norwood, R., The Sea-Mans Practice, London, 1637Google Scholar; Cortes, M., Arte de Navegar, Seville, 1557.Google Scholar The latter was known throughout Europe. For the various editions, translations and adaptations see Taylor, , op. cit. (1), Mathematical Practitioners, pp. 3233, 318, 322.Google Scholar

31 As Hooke recalled. See Hooke, R., Posthumous Works, London, 1705 (reprint edn, London, 1971), p. 486.Google Scholar

32 Major, R.H., The Life of Prince Henry, surnamed the Navigator, and its Results, 1868 (reprint edn, London, 1967), p. 423.Google Scholar

33 Prestage, C., The Portuguese Pioneers, 1932 (reprint edn, London. 1966), pp. 305306.Google Scholar

34 The view dates back at least to Peregrinus, 's Letter on the MagnetGoogle Scholar (1269) and reappeared in the plagiarism of Taisnier, J., Opusculum … de Natura Magnetis et eius EffectibusGoogle Scholar (1562), and in the rough translation of it by Eden, Richard, A very Necessarie and Profitable Booke Concerning Navigation, London, 1579?, pp. 67Google Scholar, although it should be noted that other regions of heaven were also allowed an effect.

35 Cardan, J., De Subtilitate Libri XXI, Basle, 1554, p. 215.Google Scholar

36 Gilbert, , op. cit. (14), De Magnete, pp. 231232.Google Scholar

37 de Nautonnier, G. (Nautonier), Mécometrie de leymant cest a dire la manière de mesurer les longitudes par le moyen de l'eymant, Venes, Toulouse, 16021604, pp. 7980.Google Scholar

38 Taylor, , op. cit. (1), Mathematical Practitioners, p. 332.Google Scholar

39 Medina, , op. cit. (14)Google Scholar, Arte.

40 Bourne, W., A Regiment for the Sea, LondonGoogle Scholar, 1574, chapter IX. The quotation from the 1576 (2nd) edition is taken from Waters, p. 142.

41 Digges, T., A Perfit Description of the Celestiall Orbs (LondonGoogle Scholar, 1576), signature 04r–v.

42 Quoted from Waters, , p. 146.Google Scholar For Bourne see Taylor, , op. cit. (1), Mathematical Practitioners, p. 33Google Scholar; For Borough see Waters, , p. 96.Google Scholar

43 Barlow, W., The Navigators Supply, LondonGoogle Scholar, 1597, signature A4.

44 Borough, W., A Discours of the Variation of the Cumpas (London, 1581), chapter VIII.Google Scholar

45 Wright, E., Certaine Errors in Navigation (London, 1599), pp. MV–N1V.Google Scholar

46 Ibid.., p. 205.

47 De Magnete, p. 67.Google Scholar

48 Ibid.., pp. 247–248.

49 Gilbert, , op. cit. (14), De Magnete, p. 241.Google Scholar Interestingly, Gilbert, didGoogle Scholar believe that the earth underwent continuous and major geological changes of the kind that would alter variation. One such was the disappearance of Atlantis. See Gilbert, W., De Mundo nostro Sublunari, Amsterdam, 1651 (reprint edn, Amsterdam, 1965), pp. 282283 and 292293 especially.Google Scholar

50 Gilbert, , op. cit. (14), De Magnete, p. 247.Google Scholar

51 Ibid.., Book 4, chapter IX, pp. 251–254.

52 Ibid.., Book 4, chapter XIII, pp. 265–267.

53 Ibid.., pp. 234–5, 254–5, 269.

54 Zilsel, E., ‘The Origins of William Gilbert's Scientific Method’, Journal for the History of Ideas, 1941, 2, pp. 131CrossRefGoogle Scholar; Bennett, J. A., ‘The Mechanics' Philosophy and the Mechanical Philosophy’, History of Science, (1986), 24, pp. 128.CrossRefGoogle Scholar

55 Gilbert, , op. cit. (14), De Magnete, pp. 14, 181.Google Scholar

56 Pumfrey, S., ‘William Gilbert's Magnetic Philosophy 1580–1684: the Creation and Dissolution of a Discipline’ (Ph.D. dissertation, University of London, 1987), pp. 6066.Google Scholar

57 See notes 45, 46.

58 Wright, , Certaine Errors (1599), p. Mv; 2nd edn (1610), p. 9.Google Scholar

59 I have used the British Library copy, shelf mark 533.k.9. This is in French and bears the date 1603 on the title page but other parts e.g. Books III and IV are dated 1604. According to Waters, , op. cit. (1), Navigation, p.275Google Scholar, other versions existed dated 1602 and written partly in Scots.

60 Nautonnier, , op. cit. (59), Mécometrie, Definitions 6 and 7, pp. 2136, 3744.Google Scholar

61 Ibid.., pp. 21,37.

62 See Fournier, G., Hydrographie, Paris, 1643, pp. 542, 607Google Scholar; Balmer, H., Beitrage zur geschichte der Erkenntnis des Erdmagnetismus, Zurich, 1956, pp. 461462.Google Scholar

63 By Jean Le Tellier in 1631. See Taylor, , op. cit. (12), Havenfinding Art, p. 220.Google Scholar

64 See Nautonnier, , op. cit. (59)Google Scholar, Mécotnetrie, ‘Au Lecteur’, for his self-proclaimed breadth of reading.

65 ‘… les observations de plus grans Pilotes qui ayent este au monde durant le siècle passé’, ibid.., p. 11.

66 Ibid.., p. 14.

67 Ibid.., Au lecteur, p. 1.

68 Ibid.., pp. 66–68, 95–98.

69 ‘si quelqu'un veut dire, que le defaut de rondeur en la terre, est cause de la variation de l'eymant, je dy que … il est tout certain et indubitablement resolu, que la terre est ronde … la profondeur de la mer et la hauteur des montaignes est si petite, eu esgard a ceste grand machine, que sa rondeur n'en pas difformee.’ Ibid.., pp. 95–6.

70 ‘ne sont presque rien eu esgard au rest d'icelle, ce qui est monstre par Guillaume Gilbert au dernier chapitre du premier livre de l'eymant,’ Ibid.., p. 96.

71 Gilbert, , op. cit. (14), De Magnete, p. 235.Google Scholar

72 Cabeo, N.Philosophia Magnetica, Ferrara, 1629, p. 76.Google Scholar Although Cabeo's description might appear to be a thought experiment, he instructed the reader ‘tum vero caera, aut alia simile re reple cavitates, quas fecisti:

73 Gilbert, op. cit. (14), De Magnete, p. 232.Google Scholar

74 Gilbert, , op. cit. (14), De Magnate, p. xli.Google Scholar

75 An appendix to Blundeville, T., The Theoriques of the Seven Planets, London, 1602.Google Scholar In ‘A short Appendix annexed to the former Treatise by Edward Wright, at the motion of the right Worshipful M. Doctor Gilbert’ Wright wrote ‘that (according to M. Blundeviles earnest request) this table following should be hereunto adjoined, which M. Henry Briggs … calculated.’ See p. 29.

76 London, 1609.

77 Taylor, , op. cit. (1), Mathematical Practitioners, p. 339.Google Scholar

78 Linton, , op. cit. (76), Newes, p. 15.Google Scholar

79 Ibid.., p. 12.

80 Barlow first circulated his Magnetical Advertisments as a manuscript in 1609. Ridley later commented that the Dedicatory Epistle said that Barlow's stimulus had been the desire to refute a French work called ‘Niccometria Magnetica [sic]’ by one Gulielmus Nantonierus [sic].

81 Taylor, , op. cit. (1), Mathematical Practitioners, p. 176.Google Scholar

82 Linton, , op. cit. (76), Neives, p. ii.Google Scholar

83 Wright, , op. cit. (58), Errors (2nd edn, 1610), p. 8.Google Scholar

84 Ibid.., signature Ppr.

85 Waters, , op. cit. (1), Navigation, p. 282. See pp. 282–284.Google Scholar

86 Waters, , op. cit. (1) Navigation, pp. 288, 499.Google Scholar

87 See the third part of Section VII below.

88 Carpenter, N., Geography Delineated Forth in Two Bookes. Oxford, 1625, pp. 5963.Google Scholar On p. 63 Carpenter supported Gilbert and considered that pole theorists ‘laboured with more hope than successe,’ echoing Ridley's taunt.

89 Purchas, S., Purchas His Pilgrims, (2nd edn) London, 1625, Book II, pp. 34.Google Scholar On variation ‘most laborious have beene the paines, most probable (perhaps) the reasons of our Countryman Doctor Gilbert.’

90 See the first two parts of Section VII below.

91 For Alleaume (Aleaume) see Mersenne, M., Correspondence du P. Marin Mersenne Religieux Minime ed. de Waard, C. (15 vols, Paris, 19451983), vol. i, p. 315, and p. 617.Google Scholar

92 Paris, 1611.

93 Grandami, J., Nova Demonstratio Immobilitatis Terrae La Flèche, 1645, p. 80.Google Scholar

94 Mersenne, , Quaestione celeberrimae in Genesim …Paris, 1623, columns 549–550.Google Scholar

95 Mersenne, , Le Vérité des Sciences. Contre les Sceptiques ou Pyrrhoniens, Paris, 1625 (reprint edn, Stuttgart, 1969), pp. 910929.Google Scholar

96 See Lenoble, R., Mersenne, ou la naissance du mécanisme, Paris, 1935, chapter IV.Google Scholar

97 Mersenne, , op. cit. (95), Verite, p. 911.Google Scholar ‘on donne un pole particulier a l'aymant, vers lequel il dresse tousiours sa pointe, que plusieurs pensent estre à 23 desgrez, et demy du pole arctique, pres du point ou le circle arctique entrecoupe le premier meridian.’

98 ‘Puisque vous mettez de nouveaux pole pour l'aimant, on pourroit ce semble, inventer quelque nouvelle Geographie, …’ ‘Plusieurs ont en cette pensee, car outre l'essieu, les poles et l'equateur de la guidaymant, Castel-franc a voulu, des demi-circles, des paralleles, un cercle d'attouchement, un autre du Nort, et du sudaymant.’ Ibid.., pp. 916–917.

99 Ibid.., pp. 912–915.

100 ‘Or je vous conseille de ne vous assurer pas tellement sur les tables mecometriques que vous n'observiez vous meme quelle declinaison vous trouverez en chaque lieu.’ Ibid.., p. 929.

101 In his notes on Grandami's magnetic position finding scheme, which employed inclination and declination, he remarked that ‘probandum esset 1 has variari secundum variationem locorum et adhuc sensibiliter, quod falsum jam saepe comperimus.’ Grandami's publication meant that ‘error Castel-franci jam dudum cognitus et amandatus vim de novo recipiet et intensum habebit;’ Mersenne, op. cit. (91), Correspondance, vol. xiii, p. 576.Google Scholar

102 La Charlonye, to Mersenne, , 9 09 1634Google Scholar, Mersenne, , op. cit. (91)Google Scholar, Correspondance, vol. iv, p. 358.Google Scholar

103 Ibid.., vol. ix, p. 252.

104 See Waters, , op. cit. (1), Navigation, p. 422.Google Scholar

105 Taylor, , op. cit. (1), Mathematical Practitioners, p. 203.Google Scholar

106 Johnson, F., Journal of the History of Ideas, 1940, 1, p. 429.CrossRefGoogle Scholar

107 Gellibrand, , op. cit. (2), Discourse, p. 16.Google Scholar

108 ‘Tum fuimis omnes in ea sententia ut putaremus ab antiquis peccatum hie fuisse.’ Petit, op. cit. (28), Dissertatio, p. 30.Google Scholar

109 ‘ie crus que les auteurs avoient mal observe, et que leur peu d'exactitude ou sur la ligne meridienne, ou sur leurs Cercles, estoit la cause de ce manquement.’ Petit, to Oldenberg, , 5 05, 1667.Google ScholarOldenburg, H., The Correspondence of Henry Oldenburg, ed. and trs A.R. and Hall, M.B. (11 vols, Madison and London, 19651977), vol. iii, p. 378.Google Scholar

110 Gellibrand, , op. cit. (2), Discourse, p. 16.Google Scholar

111 Idem.

112 Ibid.., pp. 16–17.

113 Ibid., p. 17.

114 It is clear from Borough's Discourse and Gunter's Description and Use of the Sector that a basic equal altitude method was used, involving just one needle.

115 See the first and third part of Section VII, and Section VIII.

116 For careful definitions of this and other analytical concepts, see Collins, Harry, ‘The Place of the Core Set in Modern Science: Social Contingency with Methodological Propriety in Science,’ History of Science, (1981), 19, pp. 619.CrossRefGoogle Scholar

117 See notes 156, 157.

118 Quoted from Webster, C., The Great Instauration; Science, Medicine and Reform in England, 1626–1660, London, 1975, p. 358.Google Scholar

119 See Taylor, , op. cit. (1), Mathematical Practitioners, p. 351Google Scholar. Taylor gives no reference to the MS, and it is not in the British Library. However, Pell referred to it in a Royal Society meeting, and it may be among Pell's papers held by the Royal Society. I have not yet been able to verify this. See Birch, T., The History of the Royal Society of London, London, 1756, vol i, p. 422.Google Scholar

120 C. Webster, p. 52; D. N. B., s.v. ‘Gellibrand, Henry’.

121 Norwood, R., The Sea-Mans Practice, London, 1637 (reprint edn Amsterdam), 1985, p. 108.Google Scholar

122 See Taylor, , op. cit. (1), Mathematical Practitioners, pp. 73–51Google Scholar; For Bond see Section VIII and n. 20.

123 For Bond see Taylor, , op. cit. (12), Havenfinding Art, pp. 232, 247.Google Scholar

124 Bond, H., The Longitude Found: or, a Treatise shewing an easie and Speedie way, as well by night as by day, to find the Longitude, privately printed, London?, 1676.Google Scholar

125 Moxon, in Wright, , Certaine Errors, 3rd edn, London, 1657, p. A3vGoogle Scholar. Moxon was alluding to the secretive Bond and ‘wished that this knowledge had bin revealed to our Author Mr Wright, or some other so publique spirited as he.’

126 See Mersenne, , op. cit. (91), Correspondance, vol. viii, p. 754 and pp. 755761.Google Scholar

127 Mersenne, , op. cit. (91), Correspondance, vol. viii, p. 617.Google Scholar

128 Ibid., p. 622.

129 Ibid., p. 685; vol. ix, p. 59.

130 Ibid., vol. viii, p. 690.

131 Ibid., p. 705; vol. x, pp. 5, 28, 31, 452; vol. ix, p. 337; Petit, , op. cit. (28), Dissertatio, pp. 2930.Google Scholar

132 Kircher, A., Magnes, sive de Arte Magnetica, Rome, 1641Google Scholar; Fournier, G., Hydrographie, Paris, 1643Google Scholar; Descartes, R.Principia Philosophiae, Paris, 1644Google Scholar; Grandami, J., Nova Demonstratio Immobilitatis Terrae, La Flèche, 1645Google Scholar; Gassendi, P., Syntagma, Lyons, 1649.Google Scholar

133 He made no mention of Gellibrand's discovery to Haak when recording the arrival of Pell's letter (Mersenne, , op. cit. (91), Correspondance, vol. viii, p. 636)Google Scholar. Later he mildly requested a copy of the Discourse, but was much more interested in securing the loan of Rev. Samuel Ward's prodigious loadstone. Ibid., p. 682.

134 Descartes to Mersenne, Mersenne, , op. cit. (91), Correspondance, vol. viii, p. 705Google Scholar; Mersenne to Kircher, Mersenne, , op. cit. (91), Correspondance, vol. ix, p. 31.Google Scholar

135 Mersenne, , op. cit. (91), Correspondance, vol. viii, p. 705.Google Scholar

136 Ibid., p. 262

137 Ibid., p. 404.

138 Mersenne, , op. cit. (91), Correspondence, vol. ix, p. 20, p. 134.Google Scholar

139 ‘… ceste Variete procedoit peut estre de celle des pierres d'aymant plus or [sic] moins fortes les unes que les autres, ou de ce que ces aiguilles aurient este touchees plus pres ou plus loin de leurs poles, ce qui pouvoit les faires décliner plus ou moins de la ligne meridienne, en sorte mesme qu'une aiguille qui seroit touchee precisement du pole d'une bonne pierre n'auroit peut estre aucune declinaison. Toutes les quelles conjectures n'estoyent pas hors d'apparence.’ Petit to Oldenburg, Oldenburg, , Correspondance, vol. iii, p. 376Google Scholar, my emphasis.

140 Petit, , op. cit. (28), Dissertatio, pp. 2930.Google Scholar

141 Mersenne, , op. cit. (91), Correspondance, vol. ix, p. 452Google Scholar; Kircher, , op. cit. (132), Magnes, p. 344.Google Scholar

142 Fournier, , op. cit. (132), Hydrographie, pp. 546548.Google Scholar

143 Petit, , op. cit. (28), Dissertatio, p. 30.Google Scholar

144 Florence, , 1632.Google Scholar

145 Galileo, , Dialogue Concerning the Two Chief World Systems, trs Drake, Stillman (Los Angeles, 1962), p. 463.Google Scholar

146 Gellibrand, , op. cit. (2), Discourse, pp. 2122.Google Scholar

147 Petit, , op. cit. (28), Dissertatio, p. 30Google Scholar; Grandami, , op. cit. (93), Nova Demonstratio, p. 73.Google Scholar

148 Mersenne, , op. cit. (91), Correspondance, vol. x, p. 129.Google Scholar

149 ‘et Copernicanam anticipationem, et Gilbertinam verticitatem, et Keplericos nucleos, et Democriticos hamulos, catenulosque, et alia id genus oppido quam multa. Exspecto quid censueris ipse.’ Mersenne, , op. cit. (91)Google Scholar, Correspondance, vol. ix, p. 453Google Scholar. Also published by Kircher himself. See his Magnes, op. cit. (132), 2nd edn (Rome, 1654), pp. 481482.Google Scholar

150 Kircher, A., Mundus Subtenaneus, 2 vols, Amsterdam, 1665.Google Scholar

151 Kircher, , op. cit. (132), Magnes, pp. 344346Google Scholar; 2nd edn, Rome, 1654, pp. 480–481.

152 Grandami, , op. cit. (93), Nova Demonstratio.Google Scholar

153 For the relation between the manuscript and printed editions see Pumfrey, , op. cit. (56), ‘Magnetic Philosophy’Google Scholar, Appendix 4.2.

154 Grandami, , op. cit. (93), Nova Demonstratio, p. 73.Google Scholar

155 See Pumfrey, , op. cit. (56), ‘Magnetic Philosophy’Google Scholar, Appendix 4.2.

156 Charleton, W., Physiologia Epicuro-Gassendo- Charletoniana, London, 1654, p. 410.Google Scholar

157 Power, H., Experimentall Philosophy, London, 1663, p. 166.Google Scholar

158 Birch, , op. cit. (119), History vol. i, pp. 440, 447, 449450.Google Scholar

159 The experiments were ordered (see Birch, , op. cit. (119), History vol. i, p. 450)Google Scholar, but their performance was not recorded. We know that they were performed from Moray's correspondence with Huygens. See Huygens, C., Oeuvres Complètes (La Haye, 18801950), vol. v, p. 95.Google Scholar

160 See Pumfrey, , op. cit. (22), ‘Mechanizing Magnetism’.Google Scholar

161 This tradition culminated in the four-pole theory of Edmund Halley. He described his theory and the poor state of knowledge about the magnetic poles in Philosophical Transactions, 1683, 12, pp. 208221.Google Scholar