Abstract
Two major interpretations of multiples have been offered, the traditional one based on the scientific zeitgeist, the more recent one based on chance processes. To clarify the issues involved in any plausible explanation, six successive Monte Carlo simulations were developed. Though all models started with the same underlying probabilistic mechanism, several elaborations were introduced, including exhaustion, communication of both successes and failures, and variation in success probability. The models yield the same probability distribution for multiple grades, but they disagree on the frequency of nulltons. Additional Gedanken experiments dealt with the zeitgeist notions of a causal link between potential contributions.
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Notes and references
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See, e.g., W. F. OGBURN, D. THOMAS, Are inventions inevitable? A note or social evolution,Political Science Quarterly, 37 (1922) 83, and A. L. KROEBER, The superorganic,American Anthropologist, 19 (1917) 163.
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For example, MERTON, op. cif. note 1,, 477–82.
For instance, see SCHMOOKLER, op. cit. note 4,, p. 191, E. CONSTANT, On the diversity and co-evolution of technological multiples: Steam turbines and Pelton water wheels,Social Studies of Science, 8 (1978) 183, and D. PATINKIN, Multiple discoveries and the central message,American Journal of Sociology, 89 (1983) 306.
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PRICE, op. cit. note 5,, 66.
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SIMONTON (1984), op. cit. note 12,.
SIMONTON (1978), op. cit. note 6,.
SIMONTON (1984), op. cit. note 11..
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See PRICE, op. cit. note 5,, 33–61.
BRANNIGAN and WANNER (1983), op. cit. note 20..
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Simonton, D.K. Multiple discovery: Some Monte Carlo simulations and Gedanken experiments. Scientometrics 9, 269–280 (1986). https://doi.org/10.1007/BF02017248
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DOI: https://doi.org/10.1007/BF02017248