Abstract
Today some raw materials (RMs) have become essential in the manufacturing of common goods and technologies (i.e., mobile phones, computers, automobiles). Readily accessible raw materials, such as rare earth elements (REEs), indium, neodymium, and others are important to industries and allow the transition towards a low-carbon economy. With the future global resource use projected to double by 2030, addressing raw materials through the entire value chain becomes a priority as well as transferring these ideas to youngsters. Some learning paths for pupils from 10 to 18 years old were developed in the framework of a European project, Raw Matters Ambassadors @Schools (RM@Schools), funded by the Knowledge and Innovation Community “Raw Materials” of the European Institute of Innovation and Technology (KIC EIT-RM). It aims to increase among youngsters the understanding of how RMs are needed in modern society and to make careers in RM attractive. Thanks to a strategic European Partnership among the three sides of the knowledge triangle (research, education, and business), RM@Schools has developed learning pathways where different educational approaches are used to foster students’ interest in science and technology, in particular in circular economy, and RM-related topics. The pathways are oriented toward a common goal: students are guided to become Young RM Ambassadors (science communicators) and create a “product” to be communicated outside of the class. By doing this, students develop twenty-first century learning skills such as creativity, critical thinking, awareness of responsibility, and teamwork.
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References
Report on critical raw materials and the circular economy, https://ec.europa.eu/transparency/regdoc/rep/10102/2018/EN/SWD-2018-36-F1-EN-MAIN-PART-2.PDF
Vidal O, Goffé B, Arndt N (2013) Nat Geosci 6
Frenzel M, Kullik J, Reuter MA, Gutzmer J (2017) Raw material ‘criticality’—sense or nonsense? J. Phys D: Appl Phys 50, 123002 https://iopscience.iop.org/article/10.1088/1361-6463/aa5b64/pdf)
https://ec.europa.eu/growth/sectors/raw-materials/specific-interest/critical_en
Torreggiani A, Zanelli A, Canino M, Sotgiu G, Benvenuti E, Forini L, Aluigi A, Polo E, Lapinska-Viola R, Degli Esposti A (2020) RM@Schools: Fostering Students’ Interest in Raw Materials and a Sustainable Society. In: 10th International conference the future of education virtual edition, Firenze (Italy) virtual conference, 18-19/6/2020
Tobin K, Fraser BJ (1990) What does it mean to be an exemplary teacher? J Res Sci Teach 27(1):13–25
Alsop S, Bencze L, Pedretti E (eds) (2005) Analysing Exemplary Science Teaching. Bell and Bain Ltd, London
Colburn A (2003) The Lingo of Learning: 88 Education Terms Every Science Teacher Should Know. NSTA Press, VA, Arlington
Entrepreneurial Skills Pass, https://www.wko.at/site/bildungspolitik/entrepreneurial-skills-pass.pdf
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Torreggiani, A. et al. (2021). How to Prepare Future Generations for the Challenges in the Raw Materials Sector. In: Azimi, G., et al. Rare Metal Technology 2021. The Minerals, Metals & Materials Series. Springer, Cham. https://doi.org/10.1007/978-3-030-65489-4_27
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DOI: https://doi.org/10.1007/978-3-030-65489-4_27
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