Abstract
Although teaching nature of science (NOS) has been continually emphasized in many major reform efforts in science education, researchers claim that students do not possess adequate views of NOS. Insufficient understanding of NOS can be associated with the ineffectiveness of curricular or instructional approaches. Consequently, researchers have begun to examine ways to improve students’ understanding of NOS. In this study, we purposely focused on honored students who major in the sciences to see whether extended science programs develop better understanding of NOS. We aimed to understand the relationship between science instruction and students’ NOS understanding in Israeli science advanced placement courses. Semi-structured interviews with science teachers provided data about the instruction of science in general, and NOS instruction in particular. An open-ended questionnaire that dealt with global climate change assessed students’ understanding of NOS. Teachers reported about limited and implicit instruction about NOS. Although teachers believed that teaching NOS is important, the need for their students to succeed in the high-stake matriculation exams and the fact that these exams do not include questions dealing with NOS were indicated as the main reasons for the teachers’ reluctance to teach NOS. Nevertheless, we found a small overall improvement in students’ understanding of NOS. Two possible factors probably contributed to students’ improved understanding of NOS: conducting inquiry projects and teaching cases in history of science. Yet, in both contexts, the understanding improved only in one aspect of NOS. The small improvement in understanding NOS reflects the limited and non-systematic teaching of NOS. Implicit instruction is not effective enough to promote understanding of NOS, even in advanced 2-year science program, where both students and teachers are highly capable. Other factors that could explain the little improvement are insufficient subjects in the curriculum that emphasize NOS and teaching methods that do not encourage discussion about NOS.
Highlights
Teaching nature of science (NOS) has been continually emphasized in many major reform efforts in science education, researchers claim that students do not possess adequate views of NOS
As stated in the K-12 Framework for Science Education, for example, ‘ there is no universal agreement about teaching the nature of science, there is a strong consensus about characteristics of the scientific enterprise that should be understood by an educated citizen’ (NRC National Research Council 2012, p. 77)
This research highlights the importance of making the NOS explicit: even though students were actively engaged in scientific inquiry, and studied the history of science, they did not get many of the key aspects of NOS
Summary
Teaching nature of science (NOS) has been continually emphasized in many major reform efforts in science education, researchers claim that students do not possess adequate views of NOS. To take part in discussing such issues, one needs to understand core scientific ideas as well as be able to understand how scientists work and know scientific practices (NRC National Research Council 2012). In recent decades, this understanding is referred to as the nature of science (NOS). In the chapter ‘Suggestions of Fields or Topics to be Included’ the framework states that many of those who provided comments to the framework thought that the nature of science needed to be made an explicit topic or idea They noted that the NOS does not emerge through engaging with practices. The Israeli national science curricula for the high school include few teaching goals related to NOS as well (Israel Ministry of Education 2010, 2011a, 2011b, in Hebrew)
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