Mapping Experiment as a Learning Process: How the First Electromagnetic Motor Was Invented

Science, Technology and Human Values 15 (2):165-201 (1990)
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Abstract

Narrative accounts misrepresent discovery by reconstructing worlds ordered by success rather than the world as explored. Such worlds rarely contain the personal knowledge that informed actual exploration and experiment. This article describes an attempt to recover situated learning in a material environment, tracing the discovery of the first electromagnetic motor by Michael Faraday in September 1821 to show how he modeled new experience and invented procedures to communicate that novelty. The author introduces a notation to map experiment as an active process in a real-world environment and to display the human agency written out of most narratives. Comparing maps of accounts shows how knowledge-construction depends on narrative reconstruction. It is argued that invention processes can be interpreted in the same way as discovery, and a study is proposed to compare packaging learned skills into demonstration devices with the innovative strategies of inventors such as Edison. If situational knowledge is as important as is claimed, computationalists need to join science studies scholars in coming to grips with nonverbal and procedural aspects of discovery and invention.

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10.1177/016224399001500202

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Citations of this work

Theory and observation: The experimental nexus.David Gooding - 1990 - International Studies in the Philosophy of Science 4 (2):131 – 148.
Achieving continuity: a story of stellar magnitude.Michael S. Evans - 2010 - Studies in History and Philosophy of Science Part A 41 (1):86-94.

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References found in this work

Personal Knowledge.Michael Polanyi - 1958 - Chicago,: Routledge.
The Logic of Scientific Discovery.K. Popper - 1959 - British Journal for the Philosophy of Science 10 (37):55-57.

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