Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-09T20:24:42.024Z Has data issue: false hasContentIssue false
  • English
  • Français

Reason Enough? More on Parity-Violation Experiments and Electroweak Gauge Theory

Published online by Cambridge University Press:  31 January 2023

Andy Pickering
Andy Pickering*
Affiliation:
University of Illinois at Urbana-Champaign
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In recent years a unified strategy in dealing with constructivism has been emerging in the writings of historians and philosophers of science. In my own experience, the strategy is exemplified in the long critiques of all or parts of my book, Constructing Quarks (CQ), set out by Paul Roth, Peter Galison and Allan Franklin. These critiques have two common features. First, the substance of constructivist claims is more or less ignored, in favour a fictional version that simply asserts the opposite of what the critic wants to affirm, which is, second, that the evolution of science should be grasped in terms of some relatively simple and unsituated concept of ‘reason’ (or ‘logic’ or ‘persuasive argument’).1 Allan Franklin’s discussion of the history of parity-violation experiments in atomic and high-energy physics exemplifies both of these features.2 Concerning the first, the position he attributes to CQ is summarised as a pure negative: Pickering, he says, ‘obviously doubts that science is a reasonable enterprise based on valid experimental or observational evidence’ (165).3

Type
Part XII. Three Views of Experiment
Information
PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association , Volume 1990 , Issue 2: Volume Two: Symposia and Invited Papers 1990 , 1990 , pp. 459 - 469
Copyright
Copyright © Philosophy of Science Association 1991

References

Ashmore, M. (1988), “The Life and Opinions of a Replication Claim: Reflexivity and Symmetry in the Sociology of Scientific Knowledge”, in Knowledge and Reflexivity: New Frontiers in the Sociology of Knowledge, Woolgar, S. (ed.). Beverly Hills and London: Sage, pp. 125-54.Google Scholar
Baird, P.E.G. et al. (1977), “Search for Parity-Nonconserving Optical Rotation in Atomic Bismuth”, Physical Review Letters 39: 798801.CrossRefGoogle Scholar
Commins, E. and Bucksbaum, P. (1980), “The Parity Non-Conserving Electron-Nucleon Interaction”, Annual Reviews of Nuclear and Particle Science 30: 152.10.1146/annurev.ns.30.120180.000245CrossRefGoogle Scholar
Franklin, A. (1986), The Neglect of Experiment. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Franklin, A. (1988), “The Way Mutants Meet Their Deaths: The Case of Atomic Parity Violation Experiments”. Unpublished draft, University of Colorado, Boulder, dated 11 Feb. 1988.Google Scholar
Franklin, A. (1990), Experiment, Right or Wrong. Cambridge: Cambridge University Press.10.1017/CBO9780511527302CrossRefGoogle Scholar
Franklin, A. (this volume), “Do Mutants Have to be Slain, or Do They Die of Natural Causes? The Case of Atomic Parity Violation Experiments”.Google Scholar
Galison, P. (1987), How Experiments End. Chicago: University of Chicago Press.Google Scholar
Giere, R.N. (1988), Explaining Science: A Cognitive Approach. Chicago: University of Chicago Press.CrossRefGoogle Scholar
Gilbert, G.N. and Mulkay, M. (1984), Opening Pandora’s Box: A Sociological Analysis of Scientists’ Discourse. Cambridge: Cambridge University PressGoogle Scholar
Hollister, J.H. et al. (1981), “Measurement of Parity Nonconservation in Atomic Bismuth”, Physical Review Letters 46: 643-6.CrossRefGoogle Scholar
New Scientist (1978), “Major Boost for Unified Theory”, 22 June, p. 824.Google Scholar
Physics Bulletin (1978), “Left at Last?”, 29: 396.Google Scholar
Pickering, A. (1984), Constructing Quarks: A Sociological History of Particle Physics. Chicago and Edinburgh: University of Chicago Press/Edinburgh University Press.Google Scholar
Pickering, A. (1989), “Editing and Epistemology: Three Accounts of the Discovery of the Weak Neutral Current”, in Knowledge and Society: Studies in the Sociology of Science, Past and Present, Vol. 8, Hargens, L., Jones, R. A. and Pickering, A. (eds). Greenwich, CT: JAI Press, pp. 217232.Google Scholar
Pickering, A. (1990), “Knowledge, Practice and Mere Construction”, Social Studies of Science 20: 682729.CrossRefGoogle Scholar
Pickering, A. (forthcoming a), “Beyond Constraint: The Temporality of Practice and the Historicity of Knowledge”, to appear in Philosophical and Historiographic Problems about Small-Scale Experiments, Buchwald, J. (ed.).Google Scholar
Pickering, A. (forthcoming b), “Philosophy Naturalized a Bit”, to appear in Social Studies of Science 21(3).Google Scholar
Roth, P.A. and Barrett, R.B. (1990), “Deconstructing Quarks: Rethinking Sociological Constructions of Science”, Social Studies of Science 20: 579632.10.1177/030631290020004001CrossRefGoogle Scholar
Times (1978), “Physics: Confirmation of Unified Theory”, 16 June.Google Scholar
Walgate, R. (1978), “Success for Unified Field Theory”, Nature 273: 584.10.1038/273584b0CrossRefGoogle Scholar