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5 - Chemistry: Exploring Pluriliteracies through a Deeper Learning Episode on Redox Reactions

from Part II - Deeper Learning Episodes: First Steps towards Transforming Classrooms

Published online by Cambridge University Press:  04 February 2023

By
Teresa Connolly
Edited by
Do Coyle ,
Oliver Meyer  and
Susanne Staschen-Dielmann
Do Coyle
Affiliation:
University of Edinburgh
Oliver Meyer
Affiliation:
Johannes Gutenberg Universität Mainz, Germany
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Summary

Teresa Connolly argues that a profound understanding of key chemistry concepts and processes is as fundamental to scientific literacy as mastering complex procedures and skills, such as performing experiments, interpreting data or communicating one’s findings using specific text types. However, she points out that such an understanding of chemical concepts is inhibited not only by learners’ poor command of academic language but also by the fact that chemical processes can be observed at different levels of abstraction. This poses a specific challenge in chemistry because learners often report having difficulties distinguishing clearly between processes at the sub-microscopic, the microscopic and the macroscopic level, which will lead to misconceptions and prevent deeper understanding. To address that issue, Connolly’s deeper learning episode on redox reactions offers engaging ways of promoting scientific reasoning through a series of student-led experiments and inquiry. Systematic guidance in academic language use will enable learners to express their findings and observations precisely and adequately and thus help them distinguish the processes occurring at various levels of abstraction with increasing ease and confidence.

Keywords

chemistryscientific literacydeeper learningSTEM educationpluriliteraciesdisciplinary literacywritten explanationschemical inquirycause–effect relationsscientific reasoningCLIL
Type
Chapter
Information
A Deeper Learning Companion for CLIL
Putting Pluriliteracies into Practice
 , pp. 21 - 48
Publisher: Cambridge University Press
Print publication year: 2023

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References

Baumert, J., Klieme, E., Neubrand, M., et al. (Eds.). (2001). PISA 2000: Basiskompetenzen von Schülerinnen und Schülern im internationalen Vergleich. Leske + Budrich.Google Scholar
Brown, N. J. S., Furtak, E. M., Timms, M., Nagashima, S. O., & Wilson, M. (2010). The Evidence-Based Reasoning Framework: Assessing Scientific Reasoning. Educational Assessment, 15(3–4), 123141. https://doi.org/10.1080/10627197.2010.530551CrossRefGoogle Scholar
Byrnes, H. (2013). Positioning Writing as Meaning-Making in Writing Research: An Introduction. Journal of Second Language Writing, 22(2), 95106.Google Scholar
Connolly, T. (2019 ). Die Förderung vertiefter Lernprozesse durch Sachfachliteralität: Eine vergleichende Studie zum expliziten Scaffolding kognitiver Diskursfunktionen im bilingualen Chemieunterricht am Beispiel des Erklärens [Unpublished doctoral dissertation, Johannes Gutenberg University Mainz]. http://doi.org/10.25358/openscience-4833Google Scholar
Gillis, V. (2014). Disciplinary Literacy: Adapt not Adopt. Journal of Adolescent & Adult Literacy, 57(8), 614623. https://doi.org/10.1002/jaal.301Google Scholar
Lemke, J. L. (1993). Talking Science: Language, Learning, and Values (2nd ed.). Ablex.Google Scholar
McNeill, K. L., Lizotte, D. J., Krajcik, J., & Marx, R. W. (2006). Supporting Students’ Construction of Scientific Explanations by Fading Scaffolds in Instructional Materials. Journal of the Learning Sciences, 15(2), 153191. https://doi.org/10.1207/s15327809jls1502_1Google Scholar
Nashan, M., & Parchmann, I. (2008). Fachtext versus Geschichte. Kommunikation in den Naturwissenschaften als Zugang zu einem Verständnis für die Natur der Naturwissenschaften. Unterricht Chemie, 19(3), 5761.Google Scholar
Parchmann, I., & Venke, S. (2008). Eindeutig – Zweideutig?! Chemische Fachsprache im Unterricht. Unterricht Chemie, 19, 1015.Google Scholar
Polias, J. (2016). Apprenticing Students into Science: Doing, Talking & Writing Scientifically. Lexis Education.Google Scholar
Putra, G. B. S., & Tang, K.-S. (2016). Disciplinary Literacy Instructions on Writing Scientific Explanations: A Case Study from a Chemistry Classroom in an All-Girls School. Chemistry Education Research and Practice, 17(3), 569579. https://doi.org/10.1039/C6RP00022CGoogle Scholar
Rose, D., & Martin, J. R. (2012). Learning to Write, Reading to Learn: Genre, Knowledge and Pedagogy in the Sydney School. Equinox.Google Scholar
Thummathong, R., & Thathong, K. (2018). Chemical Literacy Levels of Engineering Students in Northeastern Thailand. Kasetsart Journal of Social Sciences, 39(3), 478487. https://doi.org/10.1016/j.kjss.2018.06.009Google Scholar
Vollmer, G. (1980). Sprache und Begriffsbildung im Chemieunterricht. Diesterweg.Google Scholar

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