According to previous research, students show difficulties in understanding photosynthesis and respiration, and basic ecological concepts like energy flow in ecosystems. There are successful teaching units accomplished in this area and many of them can be described as inquiry-based teaching. One definition of inquiry-based teaching is that it involves everything from finding problems, investigating them, debating with peers and trying to explain and give solutions. Accordingly students need to be confronted with challenging questions and empirical data to reason about and teachers need to implement student-generated inquiry discussion since students often stay silent and do not express their thoughts during science lessons. This thesis will focus on young peoples' understanding of the functioning of plants, students' participation during biology lessons, and how biology teaching is accomplished in primary and secondary school.
In this project, 10-12 year old students in three classes, investigated plant material to learn more about plants and photosynthesis. The research study was conducted to reveal the students' scientific reasoning during their work. The eleven different tasks helped students investigate plant anatomy, plant physiology, and the gases involved in photosynthesis and respiration. The study was carried out in three ordinary classrooms. The collected data consisted of audio-taped discussions, students' notebooks, and field notes. Students' discussions and written work, during the different plant tasks, were analysed to see how the students' learning and understanding processes developed. The analysis is descriptive and uses categories from a modified general typology of student's epistemological reasoning. The study shows students' level of interest in doing the tasks, their struggle with new words and concepts, and how they develop their knowledge about plant physiology. The study confirms that students, in this age group, develop understanding and show an interest in complicated processes in natural science, e.g. photosynthesis.
Teachers’ own voices have been partially missing in science education research on upper primary school (age 10-12). In order to examine views and experiences of teaching science, we interviewed 14 upper primary teachers. They described science teaching as fun, mainly due to the inherent practical work. The same practical work was also identified by the teachers as the main cause of stress and was therefore conducted less frequently than desired. The data enabled construction of seven teacher roles, closely connected to both their described teaching practices and views on science education. Teachers’ accounts of their science teaching speak of a varied practice with emphasis on practical work and facts, and less articulated descriptions of work to develop students’ abilities to examine and communicate science. The results provide insights into the interactions between teacher views and teaching practices which could prove valuable for improving upper primary science education.
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