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  1. Scientists’ Ontological and Epistemological Views about Science from the Perspective of Critical Realism.Robyn Yucel - 2018 - Science & Education 27 (5-6):407-433.
    Including the perspectives of scientists about the nature and process of science is important for an authentic and nuanced portrayal of science in science education. The small number of studies that have explored scientists’ worldviews about science has thus far generated contradictory findings, with recent studies claiming that scientists simultaneously hold contradictory sophisticated and naïve views. This article reports on an exploratory study that uses the framework of Bhaskar’s critical realism to elicit and separately analyse academic scientists’ ontological and epistemological (...)
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  • Investigating Coherence About Nature of Science in Science Curriculum Documents.Yi-Fen Yeh, Sibel Erduran & Ying-Shao Hsu - 2019 - Science & Education 28 (3-5):291-310.
    The article focuses on the analysis of curriculum documents from Taiwan to investigate how benchmarks for learning nature of science are positioned in different versions of the science curricula. Following a review of different approaches to the conceptualization of NOS and the role of NOS in promoting scientific literacy, an empirical study is reported to illustrate how the science curriculum documents represent different aspects of NOS. The article uses the family resemblance approach as the account of NOS and adapts it (...)
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  • When Nature of Science Meets Marxism: Aspects of Nature of Science Taught by Chinese Science Teacher Educators to Prospective Science Teachers.Zhi Hong Wan, Siu Ling Wong & Ying Zhan - 2013 - Science & Education 22 (5):1115-1140.
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  • Views from the Chalkface.Zhi Hong Wan & Siu Ling Wong - 2016 - Science & Education 25 (9-10):1089-1114.
    Although the goal of developing school students’ understanding of nature of science has long been advocated, there is still a lack of research that focuses on probing how science teachers, a kind of major stakeholder in NOS instruction, perceive the values of teaching NOS. Through semi-structured interviews, this study investigated the views of 15 Hong Kong in-service senior secondary science teachers about the values of teaching NOS. These values as perceived by the teachers fall into two types. The first type (...)
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  • Teaching Nature of Science to Preservice Science Teachers: A Phenomenographic Study of Chinese Teacher Educators’ Conceptions.Zhi Hong Wan, Siu Ling Wong & Ying Zhan - 2013 - Science & Education 22 (10):2593-2619.
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  • The Contextual Nature of Scientists’ Views of Theories, Experimentation, and Their Coordination.Elizabeth Redman & William Sandoval - 2015 - Science & Education 24 (9-10):1079-1102.
    Practicing scientists’ views of science recently have become a topic of interest to nature of science researchers. Using an interview protocol developed by Carey and Smith that assumes respondents’ views cohere into a single belief system, we asked 15 research chemists to discuss their views of theories and experimentation. Respondents expressed a range of ideas about science during interviews, but in ways that defied assignment to a unitary, coherent belief system. Instead, scientists expressed more or less constructivist ideas depending upon (...)
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  • Outcomes of a Self-Regulated Learning Curriculum Model.Erin E. Peters-Burton - 2015 - Science & Education 24 (7-8):855-885.
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  • Students’ Conceptions of the Nature of Science: Perspectives from Canadian and Korean Middle School Students.Hyeran Park, Wendy Nielsen & Earl Woodruff - 2014 - Science & Education 23 (5):1169-1196.
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  • Beyond the ‘two cultures’ in the teaching of disaster: or how disaster education and science education could benefit each other.Wonyong Park - 2020 - Educational Philosophy and Theory 52 (13):1434-1448.
    Looking at the current discourse on how to teach disaster, one apparent gap is that the scientific aspect of disaster is discussed and taught mostly in isolation from its human aspect. Disaster educators seem to be primarily interested in addressing issues such as social vulnerability, community resilience, personal action-related knowledge and emotion rather than the scientific basis of disasters, whereas science educators often fail to make connections between the scientific accounts of disasters and the social and political contexts that surround (...)
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  • Nature of Science, Scientific Inquiry, and Socio-Scientific Issues Arising from Genetics: A Pathway to Developing a Scientifically Literate Citizenry.Norman G. Lederman, Allison Antink & Stephen Bartos - 2014 - Science & Education 23 (2):285-302.
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  • Epistemological Issues Concerning Computer Simulations in Science and Their Implications for Science Education.Ileana M. Greca, Eugenia Seoane & Irene Arriassecq - 2014 - Science & Education 23 (4):897-921.
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  • Towards a Refined Depiction of Nature of Science.Igal Galili - 2019 - Science & Education 28 (3-5):503-537.
    This study considers the short list of Nature of Science features frequently published and widely known in the science education discourse. It is argued that these features were oversimplified and a refinement of the claims may enrich or sometimes reverse them. The analysis shows the need to address the range of variation in each particular aspect of NOS and to illustrate these variations with actual events from the history of science in order to adequately present the subject. Another implication of (...)
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  • The Minnesota Case Study Collection: New Historical Inquiry Case Studies for Nature of Science Education.Douglas Allchin - 2012 - Science & Education 21 (9):1263-1281.
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  • International Handbook of Research in History, Philosophy and Science Teaching.Michael R. Matthews (ed.) - 2014 - Springer.
    This inaugural handbook documents the distinctive research field that utilizes history and philosophy in investigation of theoretical, curricular and pedagogical issues in the teaching of science and mathematics. It is contributed to by 130 researchers from 30 countries; it provides a logically structured, fully referenced guide to the ways in which science and mathematics education is, informed by the history and philosophy of these disciplines, as well as by the philosophy of education more generally. The first handbook to cover the (...)
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  • New Directions for Nature of Science Research.Gürol Irzik & Robert Nola - 2014 - In Michael R. Matthews (ed.), International Handbook of Research in History, Philosophy and Science Teaching. Springer. pp. 999-1021.
    The idea of family resemblance, when applied to science, can provide a powerful account of the nature of science (NOS). In this chapter we develop such an account by taking into consideration the consensus on NOS that emerged in the science education literature in the last decade or so. According to the family resemblance approach, the nature of science can be systematically and comprehensively characterised in terms of a number of science categories which exhibit strong similarities and overlaps amongst diverse (...)
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  • One Country, Two Systems: Nature of Science Education in Mainland China and Hong Kong.Siu Ling Wong, Zhi Hong Wan & Ka Lok Cheng - 2014 - In Michael R. Matthews (ed.), International Handbook of Research in History, Philosophy and Science Teaching. Springer. pp. 2149-2175.
    The development of science curricula in both mainland China and Hong Kong in the last decade has undergone a shift from content-focused goals to a wider goal of promotion of scientific literacy. This shift is a result of a considerable influence from Western countries where understanding of nature of science (NOS) has long been regarded as a major component of scientific literacy and important learning outcomes of science curricula in the West. This chapter will first report on the similarities and (...)
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