Abstract
The current trend in science curricula is to adopt a context-based pedagogical approach to teaching. New study materials for this innovation are often designed by teachers working with university experts. In this article, it is proposed that teachers need to acquire corresponding teaching competences to create a context-based learning environment. These competences comprise an adequate emphasis, context establishment, concept transfer, support of student active learning, (re-)design of context-based materials, and assistance in implementation of the innovation. The implementation of context-based education would benefit from an instrument that maps these competences. The construction and validation of such an instrument (mixed-methods approach) to measure the context-based learning environment is described in this paper. The composite instrument was tested in a pilot study among 8 teachers and 162 students who use context-based materials in their classrooms. The instrument’s reliability was established and correlating data sources in the composite instrument were identified. Various aspects of validity were addressed and found to be supported by the data obtained. As expected, the instrument revealed that context-based teaching competence is more prominently visible in teachers with experience in designing context-based materials, confirming the instrument’s validity.
Highlights
Context-based education is the innovative approach to science education chosen in many countries to further the interest of students in science and to increase the coherence of the concepts studied in national curricula
This study aimed to describe both the teaching competences needed for creating a context-based learning environment and a composite instrument to map the context-based learning environment
The composite instrument for mapping the context-based learning environment created by the teacher developed in this pilot study has been shown to be reliable
Summary
Context-based education is the innovative approach to science education chosen in many countries to further the interest of students in science and to increase the coherence of the concepts studied in national curricula (Bennett and Lubben 2006; Gilbert 2006; Pilot and Learning Environ ResBulte 2006b). A trend in this innovation is to encourage science teachers to collaborate with university experts in designing new study materials (Parchmann et al 2006; Pilot and Bulte 2006a). The collaborative process of developing and improving materials is expected to lead to a change in the cognition of the teachers (Coenders 2010) and to permanent changes in their teaching practice (Mikelskis-Seifert et al 2007). Changes in cognition and teaching practice touch on the core teacher competences mentioned in national governmental directives (cf European Commission Directorate-General for Education and Culture 2008). Such a change in teaching competence is essential for the innovation to succeed. The nature of the change in teaching competence required for context-based teaching is far undefined
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