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Paper detail

Uncertainty Analysis for a Simple Thermal Expansion Experiment

We describe a simple experiment for measuring the thermal expansion coefficient of a metal wire and discuss how the experiment can be used as a tool for exploring the interplay of measurement uncertainty and scientific models. In particular, we probe the regimes of applicability of three models of the wire: stiff and massless, elastic and massless, and elastic and massive. Using both analytical and empirical techniques, we present the conditions under which the wire's mass and elasticity can be neglected. By accounting for these effects, we measure nichrome's thermal expansion coefficient to be 17.1(1.3) ppm/K, which is consistent with the accepted value at the 8% level.

preprint2013arXivOpen access
Dimitri R. Dounas-FrazerGeoff Z. IwataPunit R. Gandhi
physics.class-ph
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Dimitri R. Dounas-FrazerGeoff Z. IwataPunit R. Gandhi

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