Development of Nature Studies and Technologies Competence in the Context-oriented Process of Learning Physics

Jānis Dzerviniks

Abstract


As Latvia is in the single European economic space, more and more attention is paid to the development of nature studies and technologies Exactly nature studies teach pupils to observe nature and natural phenomena objectively, analyse and understand them, make conclusions and foresee results. Nature studies provide students everything what is needed to form and deepen their understanding of the surrounding world. It would facilitate pupils’ thirst for knowledge and a critical view, and reflect the link between an individual and nature. Qualitative learning process of nature studies at school enables pupils gain general basic knowledge and basic skills in the field of science, develop the competence of nature studies and technologies facilitating the process of pupils becoming technologically aware members of society and encouraging them for further movement deeper into the field of science and technologies. In order to arouse interest in nature studies and facilitate acquisition of knowledge with understanding there shall be used pedagogical approaches enabling transition from memorizing scientific facts to construction of knowledge in the ways understandable and meaningful to pupils. One of the opportunities is involving pupils in the learning process in the research of problems in natural sciences in the real life context. It means that the development of the competence of nature studies and technologies shall be facilitated in the context-oriented learning process. In Latvia in the field of nature studies didactics there are not sufficiently explored the issues about the understanding of the notion of context and implementation of context-based learning in physics. Thus, in the research reflected in the article there is analysed scientific literature on the theme mentioned above, the analytical judgments are based on the prior empirical researches as well as using the author’s personal pedagogical experience.

Keywords


competence of nature studies and technologies; context; contextual constructivism; content of physics

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References


Benckert, S. (1997). Conversation and Context in Physics Education. Retrieved 16 January, 2011 from, http://gupea.ub.gu.se/bitstream/2077/18144/1/gupea_2077_18144_1.pdf

Bennett, J. (2003). Teaching and Learning Science: Aguide to Recent Research and its Applications. London: Continuum.

Campbell, B, Lazonby, J., Nicholson, P., Ramsden, J., Waddington, D. (1994). Science: the Salters’ Approach in a case study of the process of large-scale curriculum development, Science Education, 78 (5), p.415-447.

Cole, M. (1996). Cultural Psychology: a Once and Future Discipline. Cambridge, MA, Havard University Press.

Dzerviniks, J., Poplavskis, J. (2011). Accents of Constructivism’s Didactics During Education of Physics in Secondary Education. // Society. Integration. Education. Rēzekne: Rēzeknes Augstskola, p.

Filkenstein, N.D. (2001). Context in the Context of Physics and Learning. Retrieved 18 January, 2011, from http://lchc.ucsd/nfinkels/perc.context.pdf

Jonāne, L. (2009). Didaktiskais fraktālis. 50.starptautiskās zinātniskās konferences materiāli. Proceedings of the 50th International Scientific Conference of Daugavpils University. Psychology and Didactics. Retrieved 25 January, 2012, from http://dukonference.lv/raksti_pdf/Jonane+.pdf

Key competencies (2002). A Developing concept in general compulsory education. Brussels, Eurydice. Retrieved 28 January, 2012, from http://www.mp.gov.rs/resursi/dokumenti/dok67-eng-Key_competencies.pdf

Key competencies for Europe (1997). Report of the Symposium in Berne 27-30 March 1996. Strasbourg, Council of Europe.

Lubben, F., Campbell, B., Dlamini, B. (1996). Contextualizing science teaching in Swaziland: some student reactions, Int. J. Sci. Educ., Vol.18, No.3 p.311-320.

Maslo, I, Tiļļa, I. (2005). Kompetence kā audzināšanas ideāls un analītiska kategorija. Skolotājs. Nr.3 (51), 4.-9.lpp.

Mūžizglītības galvenās pamatprasmes (2007). Eiropas pamatprincipu kopums. European Communities. Retrieved 24 January, 2012, from http://jaunatne.vip.lv/upload/publikacijas/kompetences.pdf

Osborne, J, Simon, S., Collins, S. (2003). Attitudes towards science: a review of the literature and its implications. International Journal of Science Education, 25(9), p.1049-1079.

Perrenoud, P. (1997). Construire des competences dčs lecole. Paris, ESF editeur.

Rayner, A. (2005). Reflections on Context-based Science Teaching: a Case Study of Physics for Students of Physiotherapy. Retrieved 14 January, 2011, from http://sydney.edu.au/science/universe_science/pubs/procs/wshop10/2005Rayner.pdf

Ryan, P.G. & Cooper, J. (2004). Those Who Can, Teach. New York: Houghton Mifflin Company.

Science Teaching in Schools in Europe (2006). Policies and Research. Brussels: Eurydice.

Sjoberg, S. (2000). Interesting all children in „science for all”. Improving Science Education: The Contribution of Research. Buckingham: Open University Press.

Tiļļa, I. (2004). Pusaudžu sociokultūras kompetences veidošanās otrās svešvalodas mācību procesā. Rīga, Latvijas Universitāte.

Головков А. Контекстное обучение на уроках физики. Retrieved 30 January, 2012, from http://pedmir.ru/8063




DOI: http://dx.doi.org/10.17770/sie2012vol1.18

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