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Delaroche and Bérard and experimental error

Published online by Cambridge University Press:  05 January 2009

Eric Mendoza
Affiliation:
Department of Science Teaching, The Hebrew University, Jerusalem 91904, Israel.

Extract

In 1813, two young physicists, François Delaroche and Jacques-Étienne Bérard, published a series of highly influential measurements of the specific heats of a number of common gases. Their results, obtained in answer to a prize competition set by the Institut de France, were accepted as the most accurate then available and they continued to exert a powerful, if diminishing, influence on studies of heat for the next forty years. Among the results obtained by Delaroche and Bérard were two measurements which showed that the specific heat of air decreased when the pressure was raised. This was a new and important experimental result. The ‘effect’ was found to be spurious of course (definitively by Victor Regnault as late as 1862), but in the meantime it was clear endorsement of some of the tenets of the caloric theory of heat. It could be invoked, for example, to explain the rise of temperature of a gas when it was compressed adiabatically. Robert Fox in his study of the rise and fall of the caloric theory has written:

Their error, although less than 10 per cent, was to prove one of the most influential in the whole history of the study of heat. Backed by the prestige associated with victory in the Institute's competition, the result quickly became standard and… was to mislead many calorists.

Type
Research Article
Copyright
Copyright © British Society for the History of Science 1990

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References

1 Delaroche, F. and Bérard, J.-E., ‘Sur la détermination de la chaleur spécifique des differens gaz’, Annales de chimie et de physique, (1813), 85, pp. 72110, 113182.Google Scholar For some reason there are two different printings of this volume of the Annales, distinguished by typeface and some spellings. The one which is evidently later has several more numerical misprints than the other.

2 Fox, Robert, ‘The Caloric Theory of Gases from Lavoisier to Regnault’, Oxford, 1971, pp. 134150Google Scholar gives an account of the circumstances surrounding these experiments.

3 Ibid., p. 140.

4 Delaroche, and Bérard, , op. cit. (1), pp. 104, 108.Google Scholar

5 Ibid., p. 109 and p. 176, note 1.

6 Compare ibid., p. 102 and footnote with p. 107 and footnote.

7 Ibid., p. 90.

8 Ibid., p. 126.

9 Ibid., p. 128.

10 Ibid., p. 138.

11 Crosland, Maurice, ‘The Society of Arcueil, A view of French Science at the Time of Napoleon I’, London, 1967CrossRefGoogle Scholar; Gay-LussacScientist and Bourgeois’, London, 1978, pp. 3235.Google Scholar

12 Laplace, P.-S., Essai philosophique sur les probabilités, 1814Google Scholar, reprinted in Oeuvres complètes de Laplace, Paris 1886, vii, p. LVI.Google Scholar

13 Laplace, P.-S., Théorie analytique des probabilités 1814, 2nd ednGoogle Scholar, reprinted in Oeuvres complètes de Laplace, Paris 1886, vii, p. 287Google Scholar; first supplement to Théorie analytique des probabilités, 1820, 3rd ednGoogle Scholar, reprinted in Oeuvres complètes de Laplace, Paris 1886, vii, p. 518.Google Scholar

14 Laplace, , op. cit. (12), p. LIX.Google Scholar

15 Fox, , op. cit. (2), p. 140.Google Scholar

16 Laplace, P.-S., ‘Sur la Vitesse du son dans l'air et dans l'eauAnnales de chimie et de physique, (1816), 3, pp. 238241Google Scholar, reprinted in Oeuvres complètes de Laplace, Paris 1886, xiv, p. 298.Google Scholar

17 Laplace, P.-S., Mécanique céleste Paris 1825, v, p. 128Google Scholar, reprinted in Oeuvres complètes de Laplace, Paris 1886, v, p. 143.Google Scholar