Analogical scaffolding and the learning of abstract ideas in physics: An example from electromagnetic waves

Analogical scaffolding and the learning of abstract ideas in physics: An example from electromagnetic waves

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This paper describes a model of analogy, analogical scaffolding, which explains present and prior results of student learning with analogies. We build on prior models of representation, blending, and layering of ideas. Extending this model’s explanatory power, we propose ways in which the model can...

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Bibliographic Details
Main Authors: Noah D. Finkelstein, Noah S. Podolefsky
Format: Article
Language:English
Published: American Physical Society 2007-06-01
Series:Physical Review Special Topics. Physics Education Research
Subjects:
Analogical scaffolding
Multiple
layered analogies
Empirical study
Online Access:http://link.aps.org/abstract/PRSTPER/v3/e010109
Description
Summary:This paper describes a model of analogy, analogical scaffolding, which explains present and prior results of student learning with analogies. We build on prior models of representation, blending, and layering of ideas. Extending this model’s explanatory power, we propose ways in which the model can be applied to design a curriculum directed at teaching abstract ideas in physics using multiple, layered analogies. We report on a recent empirical study that motivates this model. Students taught about electromagnetic waves in a curriculum that builds on the model of analogical scaffolding posted substantially greater gains pre- to postinstruction than students taught using a more traditional (non-analogy-based) tutorial (21% vs 7%).
ISSN:1554-9178

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