Over the past half-century, numerous attempts have been made to derive the centripetal acceleration formula by treating circular motion as a superposition of uniform and accelerated rectilinear motions over short time intervals. Critical examination reveals that these methods are manifestations of the same approach pioneered by Huygens to…

In this article, we tackle the phenomenon of what seems to be a misunderstanding between science education theory and philosophy of science--one which does not seem to have received any attention in the literature. While there seems to be a consensus within the realm of science education on limiting or altogether denying the explanatory role of…

Conceptualizing the nature of science (NOS) is a crucial component of science education, as it facilitates students' comprehension of how scientific knowledge is developed. Unfortunately, teachers can themselves hold inaccurate views of NOS or assume students can infer NOS ideas from instruction or by undertaking experiments. Building on previous…

Science knowledge is deeply intertwined with human values, ethics and societal needs. While science is often perceived as value-neutral, the authors argue that the intertwined nature of science and values can be modelled from the early stages of education. This article shares examples of how individual, collective, and planetary values can shape…

For many years, hegemonic approaches to teaching the nature of science (NOS) have focused mainly on understanding some epistemic (i.e., rational, or cognitive) aspects involved in the construction of science. So, aspects of a non-epistemic (i.e., non-rational, contextual, or extra-scientific) nature have been practically neglected in these…

This study employed a convergent parallel mixed-method design to examine the teaching beliefs of secondary school teachers and determine the relationship between their scientific epistemological beliefs and pedagogical approaches. Semi-structured interviews were utilized to explore teachers' teaching beliefs, while quantitative analysis involved a…

Science education scholars agree that it is important for teachers to be prepared to teach science as more than facts and information. Part of this preparation is understanding the nature, history, and philosophy of science and its impact on scientific knowledge. However, research has shown that science teachers are often unfamiliar with the ideas…

Energy is one important concept in physics, but science education research has repeatedly shown that students struggle to develop a full understanding of energy. Especially challenging for students is the notion of potential energy. Overwhelmed by the sheer number of potential energy forms, students struggle to make connections between them.…

This study investigates the process of students' metacognitive learning about homeostasis, a fundamental biological principle. The research aimed to determine how the metacognitive awareness learning approach (MCLA) affects student perceptions of homeostasis. The research participants were 146 Israeli 10th-grade students (ages 15-16) who were…

The philosophy of science (POS) has gained recognition for its contributions to science education, particularly in integrating the history and philosophy of science (HPS). However, the existing literature lacks a comprehensive review that systematically investigates the implications and limitations of POS in science education research. This study…

Purpose -- This study is part of a comprehensive investigation conducted in Malaysia, examining science teachers' understanding of the Nature of Science (NOS) and their ability to translate this knowledge into Pedagogical Content Knowledge (PCK) for NOS. This paper specifically examines how teachers apply their NOS knowledge to develop NOS PCK in…

This article reports on the effect of textbook analysis as a tool of teacher professional development on nature of science (NOS) understanding of 10 science teachers in South Africa. The teacher professional development program (TPDP) was based on an explicit reflective methodology of textbook analysis and conducted online due to the Covid-induced…

The importance of the philosophy of science in science teacher education has long been argued for by science educators. In particular, understanding how scientific knowledge is generated, negotiated, and developed is a key area of the philosophy of science that is relevant to science teaching. However, research on the nature of scientific…

Science education policies and standards have called for educators to teach students about the Nature of Science (NOS) and engage them in Culturally Relevant Science Teaching (CRST), which requires critical shifts away from traditional science teaching. As such, teachers are being asked to possess or take up conceptions of science that challenge…

Previous research has shown that in prehigher education stages, inquiry-based teaching is not sufficient for forming a mature understanding of the nature of science (NOS). However, there is relatively little research conducted on colleges. Inquiry-based teaching should not overlook cognitive frameworks, as students' limited scientific reasoning…