Abstract
Using three-dimensional physical models elaborately in their learning, students can develop high-level understanding of models and modeling in science, thereby attaining higher achievement. However, there are in the literature few indications of how teachers should use three-dimensional physical models in instruction and whether teachers’ professional knowledge is a prerequisite for teaching with elaborate use of models. Therefore, our study used a mixed-methods approach to analyze the effects of biology teachers’ domain-specific pedagogical content knowledge (PCK) and content knowledge (CK) on students’ achievement mediated by elaborate model use (ELMO). Our quantitative sample comprised 36 German secondary school teachers whose lessons on the topic of neurobiology were videotaped twice (N = 72 lessons). Teachers completed professional knowledge tests on their PCK and CK. Students’ achievement was measured using pre- and post-knowledge tests. Our qualitative analysis involved five selected teachers according to aspects of ELMO. The results of our study indicated that teachers’ PCK and CK had no direct effect on students’ achievement. However, teachers’ PCK had a significant indirect and positive effect on students’ achievement mediated by ELMO. The findings of our study can provide teachers and researchers examples of how to implement biology instruction with elaborate use of three-dimensional physical models.
Highlights
As a result of international comparative studies, educational reforms in several countries have focused on developing and implementing National Education Standards (NES) in science education [1,2,3]
Tom and Robert were two participating teachers who were selected as positive examples for elaborate model use in biology instruction
In the quantitative phase of our study, we could identify that pedagogical content knowledge (PCK) as well as content knowledge (CK) have no direct effect on students’ achievement in the post-test
Summary
As a result of international comparative studies, educational reforms in several countries have focused on developing and implementing National Education Standards (NES) in science education [1,2,3]. A process-related dimension takes into account several constructs of scientific inquiry and scientific reasoning [2,5,6,7,8,9] and has become increasingly important. The aspect the way the model is used to foster scientific reasoning included demands of the German NES [1,2,3]; and different categories of scientific inquiry, for example, predictive characteristic of models and the critical reflection were taken into account (e.g., [30,31,32,33,47,76])
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