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Exploring Measurement through Coding: Children’s Conceptions of a Dynamic Linear Unit with Robot Coding Toys

Lise E. Welch, Jessica F. Shumway, Jody Clarke‐Midura, Victor R. Lee

2022Education Sciences19 citationsDOIOpen Access PDF

Abstract

Programming activities have the potential to provide a rich context for exploring measurement units in early elementary mathematics. This study examines how a small group of young children (ages 5–6) express their emergent conception of a dynamic linear unit and the measurement concepts they found challenging. Video of an introductory programming lesson was analyzed for evidence of preconceptions and conceptions of a dynamic linear unit. Using Artifact-Centric Activity Theory as a lens for the analysis, we found that social context, gesturing, and verbal descriptions influenced the children’s understanding of a dynamic linear unit. Challenges that students encountered included developing a constructed conception of a unit, reconciling preconceptions about the meaning of a code, and socially-influenced preconceptions. This study furthers the exploration of computational thinking and mathematics connections and provides a basis for future exploration of dynamic mathematics and programming learning in early elementary education.

Topics & Concepts

Coding (social sciences)Mathematics educationContext (archaeology)Computer scienceArtifact (error)Meaning (existential)Unit (ring theory)Unit testingPsychologyArtificial intelligenceMathematicsProgramming languageSoftwareStatisticsPaleontologyBiologyPsychotherapistTeaching and Learning ProgrammingInnovative Teaching and Learning MethodsEducational Games and Gamification
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