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Mediating Machines

Published online by Cambridge University Press:  26 September 2008

M. Norton Wise
M. Norton Wise
Affiliation:
Department of HistoryUniversity of California, Los Angeles
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Abstract

The societal context within which science is pursued generally acts as a productive force in the generation of knowledge. To analyze this action it is helpful to consider particular modes of mediation through which societal concerns are projected into the very local and esoteric concerns of a particular domain of research. One such mode of mediation occurs through material systems. Here I treat two such systems – the steam engine and the electric telegraph – in the natural philosophy of William Thomson (Lord Kelvin).

The steam engine illustrates conceptual mediation. It simultaneously instantiates “labor value” in political economy and “work” in engineering mechanics, thereby identifying the two concepts in the region of their common reference. The partial identification carries with it a structural analogy between a network of concepts from political economy and a similar network in natural philosophy, providing a potent heuristic for the reformulation and further development of dynamics.

The electric telegraph illustrates methodological mediation. It projects the interests of engineering and industry into the interests of electromagnetic theory and vice versa, thereby establishing, in Thomson's view, a Baconian unity of truth and utility. As the common reference of theory and practice, the telegraph locates the truth of theoretical knowledge in its utility and the utility of practical knowledge in its truth.

These particular cases of conceptual and methodological mediation indicate how the local practices, concepts, and interests of a research specialty, or subculture, draw on and are adapted to those of the larger culture within which they develop. Thus the analysis of mediation leads to an ecological model of the social construction of scientific knowledge.

Type
Article
Information
Science in Context , Volume 2 , Issue 1 , Spring 1988 , pp. 77 - 113
Copyright
Copyright © Cambridge University Press 1988

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References

References and Abbreviations

Alter, Peter, 1987. The Reluctant Patron: Science and the State in Britain, 1850–1920, trans. Davis, A. Oxford: Oxford University Press.Google Scholar
Bacon, Francis, [1860] 1961. Works of Francis Bacon. ed. Spedding, J., Ellis, R. L., and Heath, D. D., Boston.Google Scholar
Bacon, Francis, 1985. The New Organon and Related Writings. ed. Anderson, F., New York.Google Scholar
, BL. See Thomson. 1884.Google Scholar
Buchwald, J. Z., 1985. From Maxwell to Microphysics: Aspects of Electromagnetic Theory in the Last Quarter of the Nineteenth Century. Chicago: The University of Chicago Press.Google Scholar
Cartwright, Nancy, 1983. How the Laws of Physics Lie. Oxford: Oxford University Press.CrossRefGoogle Scholar
Cartwright, Nancy 1984. [Causation in Physics: Causal Processes and Mathematical Derivations,” PSA 2: 391404.Google Scholar
Collins, H. M., 1985. Changing Order: Replication and Induction in Scientific Practice. London: Sage.Google Scholar
Fitzgerald, G. F., 1885. “Sir Wm. Thomson and Maxwell's Electro-magnetic Theory of Light,” Nature. 32: 45.CrossRefGoogle Scholar
Fitzgerald, G. F. 1888. “Presidential Address to Section A. Report of the British Association for the Advancement of Science. 58: 557–62.Google Scholar
Galison, Peter, 1987. How Experiments End. Chicago: The University of Chicago Press.Google Scholar
Hacking, Ian, 1983. Representing and Intervening: Introductory Topics in the Philosophy of Natural Science. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Herschel, John, 1830. Preliminary Discourse on the Study of Natural Philosophy. London.Google Scholar
Hunt, Bruce, 1983. “‘Practice Vs. Theory’: The British Electrical Debate, 1888–1891,” Isis. 74: 341–55.CrossRefGoogle Scholar
Hunt, Bruce, n.d. “Imperial Science: Telegraphy and Physics in Victorian Britain.” Unpublished.Google Scholar
Jacobs, Margaret C., 1976. The Newtonians and the English Revolution, 1689n 1720. Ithaca: Cornell University Press.CrossRefGoogle Scholar
Larmor, Joseph, 1904. “Lord Kelvin on Optical and Molecular Dynamics,” Nature. 70 (supplement): iiiv.Google Scholar
Larmor, Joseph 1908. “Obituary Notice of Lord Kelvin,” Proceedings of the Royal Society, 81 (supplement): iiilxxvi.Google Scholar
Latour, Bruno and Steve, Woolgar, 1979. Laboratory Life: The Social Construction of Scientific Facts. Beverly Hills: Sage.Google Scholar
Lenoir, Timothy, 1987. “The Darwin Industry,” Journal of the History of Biology 20: 115–30.CrossRefGoogle Scholar
Lenoir, Timothy, n. d. “The Discipline of Nature and the Nature of Disciplines: The Formation and Transformation of Biomedical Disciplines.” Unpublished.Google Scholar
Lenoir, Timothy 1988. “Practice, Reason, Context: The Dialogue Between Theory and Experiment,” Science in Context. 2(1): 322.CrossRefGoogle Scholar
Lenoir, Timothy, forthcoming. “Science for the Clinic: Carl Ludwig and the Institutional Revolution in German Physiology,” in The Investigative Enterprise. ed. Holmes, F. L. and Coleman, William, University of California Press.Google Scholar
Lodge, O. J., 1888. “Sketch of the Electrical Papers in Section A at the Recent Bath Meeting of the British Association,” The Electrician. 622–25.Google Scholar
Maxwell, James Clerk, 1873. Treatise on Electricity and Magnetism. 2 vols. Oxford; MPP See Thomson William, 1882–1911.Google Scholar
Murray, David, 1862–63. “Lecture Notes in Classe Physica bench II, 1862–63,” MS Murray, 325. Glasgow University Library.Google Scholar
Newton, Isaac. 1687. Philosophiae Naturalis Principia Mathematica. London.CrossRefGoogle Scholar
Pickering, Andrew, 1984. Constructing Quarks: A Sociological History of Particle Physics. Chicago: The University of Chicago Press.Google Scholar
, PL. See Thomson 18891894.Google Scholar
Rudwick, Martin J. S., 1985. The Great Devonian Controversy: The Shaping of Scientific Knowledge Among Gentlemanly Specialists. Chicago: The University of Chicago Press.CrossRefGoogle Scholar
Schaffer, Simon forthcoming. “The Nebular Hypothesis and the Science of Progress,” in The Humanity of Evolution. ed. Moore, J. R., Cambridge: Cambridge University Press.Google Scholar
Schweber, Sylvan S., 1985. “The Wider British Context in Darwin's Theorizing,” in The Darwinian Heritage. ed. Kohn, David, Princeton: Princeton University Press.Google Scholar
Shapin, Steven and Simon, Schaffer, 1985. Leviathan and the Air Pump: Hobbes, Boyle, and the Experimental Life. Princeton: Princeton University Press.Google Scholar
Smith, Crosbie and Wise, M. Norton, forthcoming. Energy and Empire: William Thomson, Lord Kelvin, 1824–1907. Cambridge: Cambridge University Press.Google Scholar
Smith, William, 1849–50. “Notes of the Glasgow College Natural Philosophy Class Taken during the 1849–50 Session,” MS Gen 142. Glasgow University Library.Google Scholar
, SPT. See Thompson, 1910.Google Scholar
Terrall, Mary, 1987. “Maupertuis and Eighteenth-Century Scientific Culture.” Ph.D. thesis, University of California, Los Angeles.Google Scholar
T & T'. See Thomson and Tait, 1867.Google Scholar
Thompson, S. P., 1910. The Life of William Thomson, Baron Kelvin of Largs, 2 vols. London (cited as SPT).Google Scholar
Thomson, William, 18821911. Mathematical and Physical Papers 6 vols. Cambridge (cited as MPP).Google Scholar
Papers from MPP cited in text, arranged by date of first publication:Google Scholar
1857. “On the Electric Conductivity of Commercial Copper of Various Kinds,” Proceedings of the Royal Society of Edinburgh. 8: 550–55; MPP 2: 61–76.CrossRefGoogle Scholar
1860. “Velocity of Electricity,” in Cyclopedia. 2d ed., ed. Nichol, J. P.; MPP 2: 131–37.Google Scholar
1863. “On Some Kinematical and Dynamical Theorems,” Proceedings of the Royal Society of Edinburgh 5: 113–15; MPP 4: 458–59.CrossRefGoogle Scholar
1888a. “Simple Hypothesis for Electro-magnetic Induction of Incomplete Circuits, with Consequent Equations of Electric Motion in Fixed Homogeneous Solid Matter,” Report of the British Association for the Advancement of Science 58: 567–70. MPP 4: 539–44.Google Scholar
1888b. “Five Applications of Fourier's Law of Diffusion, Illustrated by a Diagram of Curves with Absolute Numerical Values,” Report of the British Association for the Advancement of Science. 58: 571–74; MPP 3: 428–35 (incomplete).Google Scholar
1888c. “On New Standard and Inspectional Electric Measuring Instruments,” Journal of the Society of Telegraph Engineers. 17: 540–56, 566–67, MPP 5: 560–74.CrossRefGoogle Scholar
1890a. “Ether, Electricity and Ponderable Matter,” Journal of the Institution of Electrical Engineers 18: 437, 128; MPP 3: 484–515.Google Scholar
1890b. “Remarks on Retiring from the Presidential Chair,” Journal of the Institution of Electrical Engineers 19: 26; MPP 5: 577–80.Google Scholar
1894. “Notes on Hydrodynamics. On the Vis-Viva of a Liquid in Motion,” Cambridge and Dublin Mathematical Journal. 4: 9094; MPP 1: 107–12.Google Scholar
Thomson, William, “Dft. MSS for T & T'” PA177, Cambridge University Library.Google Scholar
Thomson, William, Letter to Hermann Helmholtz, 31 July 1864, in SPT 1: 433.Google Scholar
1884. “Notes of Lectures on Molecular Dynamics and the Wave Theory of Light.” Papyrographed stenographic report, by H. S. Hathaway. Baltimore. (Baltimore Lectures, cited as BL)Google Scholar
Thomson, William, 18891894. Popular Lectures and Addresses 3 vols. London (cited as PL). Papers from PL cited in text:Google Scholar
1871. “Presidential Address,” Report of the British Association for the Advancement of Science 41: lxxxiv; PL 2: 132–205.Google Scholar
1883. “Electric Units of Measurement”; PL 1: 73136. (lecture delivered to the Institution of Civil Engineers in 1883).CrossRefGoogle Scholar
Thomson, William and Tait, P.G. 1867. Treatise on Natural Philosophy. Oxford. (cited as T & T')Google Scholar
Wiener, Martin J., 1981. English Culture and the Decline of the Industrial Spirit, 1850–1980. Cambridge: Cambridge University Press.Google Scholar
Wise, M. Norton and Smith, Crosbie, 1986. “Measurement, Work, and Industry in Lord Kelvin's Britain,” Historical Studies in the Physical and Biological Sciences 17: 147–73.CrossRefGoogle Scholar
Wise, M. Norton, with the collaboration of Crosbie Smith, forthcoming. “Work and Waste: Political Economy and Natural Philosophy in Nineteenth-Century Britain,” History of Science.Google Scholar
Young, Robert M., 1985. Darwin's Metaphor: Nature's Place in Victorian Culture. Cambridge: Cambridge University Press.Google Scholar