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The study reported in this article aimed at exploring what teachers know and do about fostering higher‐order thinking skills in teaching science, and how they see themselves involved in achieving this end. Data were collected through semi‐structured interviews with 11 teachers experienced in teaching high school physics, which is considered a relatively difficult but well‐established discipline. The findings highlighted a diversity among the teachers in four areas: meta‐strategic knowledge of the concept of higher‐order thinking; practical utilization of instructional strategies related to fostering higher‐order thinking in the classroom; beliefs about students’ abilities to acquire higher‐order thinking skills; and self‐perception regarding teaching towards higher‐order thinking. Regarding the second area, for example, some of the teachers reported using teaching strategies in class that could impede the development of students as autonomous thinkers; others occasionally try to foster higher‐order thinking among their students but regard this as a way of conveying subject content better; only a minority of the teachers see the fostering of higher‐order thinking as an important objective of teaching physics. In summary, teachers are frequently puzzled or uncertain about the entire issue of fostering higher‐order thinking in school. Introducing elements of constructivist pedagogy combined with the specific steps aimed at fostering higher‐order thinking into the science class is required to make the development of higher‐order thinking a regular ingredient in science teaching within the current schooling.
Barak et al. (Thu,) studied this question.