Designing context-based teaching materials by transforming authentic scientific modelling practices in chemistry

Prins, Gjalt T.; Bulte, Astrid M. W.; Pilot, Albert

doi:10.1080/09500693.2018.1470347

Cited by 43 publications

(31 citation statements)

References 42 publications

(46 reference statements)

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“…This study investigates students' reasoning on the life cycle of plastics, inspired by the work of and Juntunen and Aksela (2014). Building on the suggestion of Prins, Bulte and Pilot (2018) to use authentic scientific practices as contexts for science education, we used the scientific approach as applied by Tabone et al (2010) as source of inspiration for engaging students in LCA on (bio)plastics. The goal was to gain insight into students' perceptions on the sustainability of (bio)plastics by revealing their arguments and the type of scientific knowledge (themes) they use.…”

Section: Aim and Research Questionsmentioning

confidence: 99%

Pre-university students’ perceptions about the life cycle of bioplastics and fossil-based plastics

Waard

Prins

Joolingen

2020

Chem. Educ. Res. Pract.

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Sustainability has become a prominent theme in society and can be considered as an integral part of scientific citizenship. This study investigates to what extent the production, use and re-use of (bio)plastics initiates students’ reasoning and to identify the kind of content knowledge students put forward. The structure of students’ arguments was mapped according to Toulmin's model of argumentation, i.e., claim, data, warrant & backing and qualifier & rebuttals. Students (N = 27, grade 10 & 11) participated in groups of three. The students were introduced to the topic of the production, use and re-use of plastics by watching a video, answering questions, reading articles and having interviews and group discussions. Students were prompted to argue on the sustainability of bioplastics and fossil-based plastics. The results show that students frequently used arguments related to preventing pollution, designing to recycle and designing to degrade. However, themes such as avoiding waste, origin of energy and materials, energy efficiency and costs were rarely used or even absent in students’ reasoning. Overall, the students’ reasoning contained all of Toulmin's categories, and especially the increase in the number of qualifier & rebuttals is interpreted as an indication of awareness of the complexity of the issue at hand. This study underlines that students are able to bring in relevant scientific knowledge when confronted with a suitable sustainability issue, but also more societally oriented arguments enriched their perspective. Implications for the design of interventions aiming to engage students in life cycle analysis (on plastics) are discussed.

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Section: Aim and Research Questionsmentioning

confidence: 99%

Pre-university students’ perceptions about the life cycle of bioplastics and fossil-based plastics

Waard

Prins

Joolingen

2020

Chem. Educ. Res. Pract.

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“…In its center are the ideas of "STEM-integration" (De Meester et al, 2016;National Research Council, 2014). It is advised to start with practice applications of sciences and to pose contemporary problems on students, so they begin to search for knowledge themselves and are ready for some theory to be poured on them (Prins et al, 2018). For example, Land (2000) suggests using open-ended learning environments to provide students with opportunities to engage in authentic problem solving, such as weather forecasting or water pollution problem.…”

Section: Problem Statementmentioning

confidence: 99%

Ancient Technologies As A Gateway To Study Natural Sciences

Vysotskaya¹

2020

European Proceedings of Social and Behavioural Sciences

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“…It is thus recognised, in the context of natural hazards that an awareness of problems and decisions to be made, as well as appreciating the need for personal and social values, are important and need to relate to the causes and consequences of natural hazards (Cerulli, Holbrook, & Mander, 2016;Oyao, Holbrook, Rannikmäe, & Pagunsan, 2015). Importantly, science curricula encompass the promotion of competences (referred to as: knowledge, skills, attitudes, and values), seeing the teaching of science subjects as more than content (Eurydice, 2012a;NRC, 2012;Prins, Bulte, & Pilot, 2018). In providing students with a context for learning, an understanding of NOS/NOT is valuable in building knowledge leading to undertaking behavioural actions (Cerulli, Holbrook, & Mander, 2016).…”

Section: Enhancing Natural Hazard Reduction Through Science Educationmentioning

confidence: 99%

Exploring the Effect of Nos/Not Learning and Dispositions on Undertaking Behavioural Actions in the Case of Natural Hazards

Cerulli

Holbrook

2019

JBSE

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This research seeks to evaluate students’ intended behavioural actions in the event of a natural hazard, specifically hurricane, lightning, earthquake, or tsunami. A test instrument, measuring behavioural actions in the event of a natural hazard, and related NOS/NOT beliefs and dispositions, is utilized to collect data in Estonia, USA and Japan (N=2323). Results suggest that students responded adequately to tsunamis and lightning strikes, but to a lesser extent for hurricanes and earthquakes. Results also suggest a connection between dispositions and behavioural actions, but a lack of connection between generalised. NOS/NOT conceptualisations and behavioural actions. Results imply that students find it difficult to apply their learning to new situations requiring responsible behavioural actions. Implications indicate that NOS/NOT are not well understood, while responsible behavioural actions need to more heavily stressed in teaching about natural hazards involving the promotion of student values and attitudes with respect to Natural Disaster Reduction (NDR). Keywords: behavioural action, Natural Disaster Reduction (NDR), dispositions, Natural Hazards (NH), Nature of Science (NOS), Nature of Technology (NOT).

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Designing context-based teaching materials by transforming authentic scientific modelling practices in chemistry

Cited by 43 publications

References 42 publications

Pre-university students’ perceptions about the life cycle of bioplastics and fossil-based plastics

Pre-university students’ perceptions about the life cycle of bioplastics and fossil-based plastics

Ancient Technologies As A Gateway To Study Natural Sciences

Exploring the Effect of Nos/Not Learning and Dispositions on Undertaking Behavioural Actions in the Case of Natural Hazards

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