Las concepciones de los futuros maestros sobre la naturaleza, cambio y utilización didáctica de las ideas de los alumnos

  1. Martín del Pozo, Rosa
  2. Rivero García, Ana
  3. Azcaráte Goded, María del Pilar
Revista:
Revista Eureka sobre enseñanza y divulgación de las ciencias

ISSN: 1697-011X

Ano de publicación: 2014

Volume: 11

Número: 3

Páxinas: 348-363

Tipo: Artigo

DOI: 10.25267/REV_EUREKA_ENSEN_DIVULG_CIENC.2014.V11.I3.06 DIALNET GOOGLE SCHOLAR lock_openAcceso aberto editor

Outras publicacións en: Revista Eureka sobre enseñanza y divulgación de las ciencias

Resumo

One of the indicators of quality in teaching classroom content is what teachers think about the ideas of their pupils, and then what use they of them. The purpose of the present study was to describe and analyse how, during their initial teacher education course, prospective primary teachers' conceptions about pupils' ideas on various topics of school science content progressed. Analysis of the participants' written productions throughout the course (which had a clear constructivist orientation) suggested that, in all the categories studied (nature, change, and educational use of pupils' ideas), there was progression from their initial conceptions that had been close to a transmissive model that ignored pupils' ideas, but that this progression did not reach the alternative model that we considered desirable. We propose an "Itinerary of Progression" on pupils' ideas which can serve as a referent in initial teacher education.

Referencias bibliográficas

  • ANECA (2004). Libro Blanco. Título de Grado en Magisterio. Recuperado el 5/5/2010 de: http://www.aneca.es/media/150404/libroblanco-jun05-magisterio1.pdf
  • Bryan, L.A. (2003). Nestedness of beliefs: examining a prospective elementary teacher's belief system about science teaching and learning. Journal of Research in Science Teaching, 40(9), 835-868.
  • Cubero, R. (2005). Perspectivas constructivistas. La intersección entre el significado, la interacción y el discurso. Barcelona: Graó.
  • Duit, R. y Treagust, D. (2003). Conceptual change: A powerful framework for improving science teaching and learning. International Journal of Science Education, 25(6), 671-688.
  • Flores, F., López, A., Gallegos, L. y Barojas, J. (2000). Transforming science and learning concepts of physics teachers. International Journal of Science Education, 22(2), 197-208.
  • Furió, C., Solbes, J. y Carrascosa, J. (2006). Las ideas alternativas sobre conceptos científicos: tres décadas de investigación. Alambique, 48, 64-77.
  • García, M.B., Mateos, M. y Vilanova, S.L. (2011). Contenido y naturaleza de las concepciones de profesores universitarios de biología sobre el conocimiento científico. Revista Electrónica de Enseñanza de las Ciencias, 10 (1), 23-39.
  • Giordan, A. (1989). Representaciones sobre la utilización didáctica de las representaciones. Enseñanza de las Ciencias, 7(1), 53-62.
  • Gomez-Zwiep, S. (2008). Elementary Teachers' Understanding of Students' Science Misconceptions: Implications for Practice and Teacher Education. Journal of Science Teacher Education,19, 437-454.
  • Gustafson, B.F. y Rowell, P.M. (1995). Elementary preservice teachers: constructing conceptions about learning science, teaching science and the nature of science. International Journal of Science Education, 17, 589-605.
  • Haefner, L.A. y Zembal-Saul, C. (2004). Learning by doing? Prospective elementary teachers' developing understandings of scientific inquiry and science teaching and learning. International Journal of Science Education, 26(13), 1653-1674.
  • Hollon, R. E, Roth, K. y Anderson, C. W. (1991). Science teachers' conceptions of teaching and learning. Advances on Research on Teaching, 2, 145-185.
  • Larkin, D. (2012). Misconceptions about "Misconceptions": Preservice Secondary Science Teachers' Views on the Value and Role of Student Ideas. Science Education, 96(5), pp. 927-959.
  • Levin, D. M., Hammer, D. y Coffey, J. E. (2009). Novice teachers' attention to student thinking. Journal of Teacher Education, 60(2), 142-154.
  • Liang, L. L. y Gabel, D. L. (2005). Effectiveness of a constructivist approach to science instruction for prospective elementary teachers. International Journal of Science Education, 27(10), 1143-1162.
  • Martín del Pozo, R., Porlán, R. y Rivero, A. (2011). The progression of prospective teachers' conceptions of school science content. Journal of Science Teacher Education, 22(4), 291-312.
  • Martín del Pozo, R. y De Juanas, A. (2013). La valoración de los maestros sobre las ideas de los alumnos. Revista Complutense de Educación.
  • Morrison, J. A. y Lederman, N. G. (2003). Science teachers' diagnosis and understanding of students' preconceptions. Science Education, 87(6), 849-867.
  • Otero, V. y Nathan, M. (2008). Preservice Elementary Teachers' Views of Their Students' Prior Knowledge of Science. Journal of Research In Science Teaching,45(4), 497-523.
  • Park, H., Hewson, P. W. y Lemberger, J. (2010). The interactions of conceptions of teaching science and environmental factors to produce praxis in three novice teachers of science. Research in Science Education, 40, 717-741.
  • Peterson, R. y Treagust, D. (1998). Learning to teach Primary Science through problem-based learning. Science Education, 82, 215-237.
  • Porlán, R., Martín del Pozo, R., Rivero, A., Harres, J., Azcárate, P. y Pizzato, M. (2011) El cambio del profesorado de ciencias II: Resultados y conclusiones sobre la progresión de las concepciones didácticas. Enseñanza de las Ciencias, 29(3), 413-426.
  • Report Rocard (2007). Science Education now: A Renewed Pedagogy for the Future of Europe . Brussels: European Commision. Recuperado el 5/5/2010 de: http://ec.europa.eu/research/science-society/document-library/pdf-06/reportrocard
  • Rivero, A., Azcárate, P., Porlán, R., Martín del Pozo, R., y Harres, J. (2011). The Progression of Prospective Primary Teachers' Conceptions of the Methodology of Teaching. Research in Science Education, 41(5), 739-769.
  • Tabachnick, B. R. y Zeichner, K. M. (1999). Idea and action: Action research and the development of conceptual change teaching of science. Science Education, 83, 309-322.
  • Tillema, H. H. (2000). Belief change towards self-directed learning in student teachers: immersion in practice or reflection on action. Teaching and Teacher Education, 16(5/6), 575-591.
  • Watters, J. J. y Ginns, I. (2000). Developing motivation to teach elementary science: effect of collaborative and authentic learning practices in preservice education. Journal of Science Teacher Education, 11(4), 301-321.
  • Watts, M. y Jofili, Z. (1998). Towards critical constructivist teaching. International Journal of Science Education, 20(2), 173-185.
  • Windschitl, M., Thompson, J. y Braaten, M. (2011). Ambitious pedagogy by novice teachers: Who benefits from tool-supported collaborative inquiry into practice and why? Teachers College Record, 113(7), 1311-1360.
  • Zembal-Saul, C., Blumenfeld, P. y Krajcik, J. (2000). Influence of guided cycles of planning, teaching, and reflection on prospective elementary teachers' science content representations. Journal of Research in Science Teaching, 37, 318-339.
  • Zembal-Saul, C., Krajcik, J. y Blumenfeld, P. (2002). Elementary Student Teacher' Science. Content representations. Journal of Research in Science Teaching, 37(4), 318-339.
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