Characterising a Representation Construction Pedagogy for Integrating Science and Mathematics in the Primary School

Growing research evidence indicates student learning gains from guided representation construction/invention in school science and mathematics. In this inquiry approach, students address challenges around what features of a phenomenon/problem to attend to, what data to collect, how and why, and make...

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Bibliographic Details
Published inInternational journal of science and mathematics education Vol. 21; no. 4; pp. 1153 - 1175
Main Authors Tytler, Russell, Prain, Vaughan, Kirk, Melinda, Mulligan, Joanne, Nielsen, Chris, Speldewinde, Chris, White, Peta, Xu, Lihua
Format Journal Article
LanguageEnglish
Published Singapore Springer Nature Singapore 01.04.2023
Springer
Springer Nature B.V
Subjects
Classrooms
Education
Elementary School Curriculum
Elementary School Teachers
Experiential Learning
Integrated Curriculum
Learner Engagement
Learning
Mathematical analysis
Mathematics
Mathematics Education
Representations
Science Education
Students
Teacher Role
Teachers
Transduction
Guided inquiry pedagogy
Representation construction
Interdisciplinarity in mathematics and science
Multimodal learning
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Summary:Growing research evidence indicates student learning gains from guided representation construction/invention in school science and mathematics. In this inquiry approach, students address challenges around what features of a phenomenon/problem to attend to, what data to collect, how and why, and make collective judgments about multimodal accounts of phenomena. However, researchers to date have tended to focus on student learning rather than on the teacher’s role in guiding various phases of inquiry. In this paper we report on (a) analysis of Grade 1 students’ engagement in interdisciplinary mathematics and science inquiry practices in a classroom sequence in ecology; (b) the teacher’s role in guiding such inquiry; and (c) interpretation of these practices in terms of support of student transduction (connecting and remaking meanings across representations in different modes). Data from our study included video capture of two case study teachers’ guidance of tasks and classroom discussion and student artefacts. We examine the classroom processes through which the teachers used students’ invention and revision of data displays to teach the concepts of living things, diversity, distribution and adaptive features related to habitat in science. Mathematical processes included constructing and interpreting mapping, measurement and data modelling, sampling and using a scale. The analysis offers fresh insights into how teachers support student learning in these two subjects, through discrete stages of orienting, representation challenge, building consensus and applying and extending representational systems.
ISSN:1571-0068
1573-1774
DOI:10.1007/s10763-022-10284-4