A formação inicial de professores na atualidade deve contemplar o desenvolvimento de competências docentes fundamentais para a promoção de modelos de educação interdisciplinar, enfatizando e promovendo a convergência de conhecimentos de várias áreas disciplinares. Neste artigo apresenta-se uma experiência de formação interdisciplinar, no âmbito da formação inicial de professores na Universidade de Aveiro, “vivida” no Projeto EduPARK, por estudantes do Mestrado em Ensino do 1.º Ciclo do Ensino Básico e de Matemática e Ciências Naturais do 2.º Ciclo do Ensino Básico. Esta experiência demonstra que o recurso à Realidade Aumentada (RA) é uma estratégia promissora na promoção de um modelo de educação interdisciplinar, através da criação de guiões didáticos, sua implementação em contexto escolar e sua avaliação.

Palavras chave: formação de professores; abordagem interdisciplinar; realidade aumentada

Abstract

The initial teacher training currently comprises the development of crucial teaching skills for the promotion of models for interdisciplinary education, emphasizing and promoting the convergence of knowledge from various disciplinary areas. This paper presents an experience of interdisciplinary training, within the scope of initial teacher training at the University of Aveiro, “lived” within the EduPARK Project, by students of the Master in Teaching of the 1st Cycle of Basic Education and of Mathematics and Natural Sciences of the 2nd Cycle of Basic Education. This experience demonstrates that the use of Augmented Reality (AR) is a promising strategy in promoting an interdisciplinary education model, through the creation of pedagogical guides, its implementation in the school context and its evaluation.

Keywords: teacher training, interdisciplinary approach, augmented reality.

Data de receção: 8-10-2020

Decisão final: 10-10-2020

Botana, F., Kóvacs, Z., Martinez - Sevilla, A., & Recio, T. (2020). Automatically Augmented Reality with GeoGebra. In T. Prodromou (Ed.), Augmented Reality in Educational Settings (pp 347–368). doi: https://doi.org/10.1163/9789004408845_015

Burgos, M., Giacomone, B., Godino, J. D., & Neto, T. (2019). Developing the onto-semiotic analysis competence of prospective mathematics teachers using proportionality tasks. RED8- Educación matemática y formación de profesores.

Chevallard, Y. (2015). Teaching Mathematics in Tomorrow’s Society: A Case for an Oncoming Counter Paradigm. In S.J. Cho (ed.), The Proceedings of the 12th International Congress on Mathematical Education (pp. 173-187). Dordrecht: Springer.

Drijvers, P. et al. (2009) Integrating Technology into Mathematics Education: Theoretical Perspectives. In: Hoyles C., Lagrange JB. (eds). Mathematics Education and Technology-Rethinking the Terrain. New ICMI Study Series, vol 13. Springer, Boston, MA. https://doi.org/10.1007/978-1-4419-0146-0_7

Godino, J. D., Giacomone, B., Batanero, C., & Font, V. (2017). Enfoque ontosemiótico de los conocimientos y competencias del profesor de matemáticas. Bolema, 31(57), 90-113.

Godino, J.D., & Neto, T. (2013). Actividades de iniciación a la investigación en educación matemática. Revista de Didáctica de la Matemática, 63, 69-76. https://core.ac.uk/download/pdf/19488126.pdf

Lew, H.C. (2019). Suggesting Interdisciplinary Teacher Education for the Fourth Industrial Revolution. Paper presented at the 7th SEAMEO-Tsukuba Conference (Tokyo, 2019.2)

Marques, M.M., & Pombo, L. (2020). Teacher readiness to adopt game-based mobile learning with augmented reality. IxD&A/Interaction Design and Architecture(s) special issue on 'Smart Learning Ecosystems - Design as cornerstone of smart educational processes and places', 43, pp. 68-85, http://www.mifav.uniroma2.it/inevent/events/idea2010/doc/43_4.pdf

Martins, G. et al. (2017). Perfil dos alunos à saída da escolaridade obrigatória. Ministério da Educação, Direção-Geral da Educação.

OECD (2019). Future of Education and Skills 2030, OECD Publishing. http://www.oecd.org/education/2030-project/contact/OECD_Learning_Compass_2030_Concept_Note_Series.pdf

Pombo, L., & Marques, M.M. (2018). The EduPARK Mobile Augmented Reality Game: learning value and usability. In Sánchez & Isaías (ed.), 14th International Conference Mobile Learning – IADIS (23-30), Lisboa, 14-16 abril. http://www.iadisportal.org/digital-library/the-edupark-mobile-augmented-reality-game-learning-value-and-usability

Pombo, L., & Marques, M.M. (2019). An app that changes mentalities about mobile learning – the EduPARK augmented reality app. Computers, Special Issue Augmented and Mixed Reality in Work Context, 8(2):37, doi:10.3390/computers8020037, http://hdl.handle.net/10773/26929

Pombo, L., Marques, M., Lucas, M., Carlos, V., Loureiro, M.J., & Guerra, C. (2017). Moving learning into a smart urban park: students´ perceptions of the Augmented Reality EduPARK mobile game. IxD&A, 35, 117-134 http://www.mifav.uniroma2.it/inevent/events/idea2010/doc/35_6.pdf

Pombo, L., Marques, M.M., & Oliveira, S. (2019). Lessons Learned – EduPARK. In Lúcia Pombo (Coord). 151p. Aveiro: UA Editora. ISBN: 978-972-789-613-4, http://edupark.web.ua.pt/#book or http://hdl.handle.net/10773/26979

Pombo, L., Marques, M. M., & Carlos, V. (2019). Mobile augmented reality game-based learning: teacher training using the EduPARK app. Da Investigação às Práticas: Estudos de Natureza Educacional, 9(2), 3-30. doi: http://dx.doi.org/10.25757/invep.v9i2.182

Pombo, L., & Neto, T. (2018). EduPARK, uma lufada de ar fresco na Formação Inicial e Contínua de Professores. In Mariano Martín Gordillo e Isabel P. Martins (coords.), Ciencia cordial. Un desafío educativo (pp. 78-89). Madrid: Los libros de la Catarata. https://drive.google.com/file/d/1st8PCS7WkTCtRnqccrovBqBpNZ7wvunM/view?usp=sharing

Ponte, J.P., & Chapman, O. (2016). Prospective mathematics teachers’ learning and knowledge for teaching. In L. English & D. Kirshner (Eds.), Handbook of international research in mathematics education (3rd ed., pp. 223-261). New York, NY: Routledge/Taylor & Francis.

Schwab, K. (2017). The Fourth Industrial Revolution. Penguin U.K.

Sungkur, R. K., Panchoo, A., & Bhoyroo, N. K. (2016). Augmented Reality, the Future of Contextual Mobile Learning. Interact. Technol. Smart Educ., 13(2), 123–146. https://doi.org/10.1108/ITSE-07-2015-0017

Vidal, E.C.E., Ty, J. F., Caluya, N. R., & Rodrigo, M.M.T. (2019). MAGIS: Mobile Augmented Reality Games for Instructional Support. Interact. Learn. Environ., 27(7), 895–907. https://doi.org/10.1080/10494820.2018.1504305.

Zydney, J.M., & Warner, Z. (2016). Mobile apps for science learning: Review of research, Computers & Education, 94, 1–17.