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  1. An Argumentative Tool for Facilitating Critical Evaluation.S. Nazli Can & Deniz Saribas - 2019 - Science & Education 28 (6-7):669-687.
    The aim of the present study is to explore pre-service elementary teachers’ evaluations of the evidence and models and their positions on a socio-scientific topic, namely genetically modified organisms, after evaluating them through Model Evidence Link diagrams. The findings of this study show that the participants mostly constructed accurate evidence-model links. However, they mostly generated inaccurate relationships between the model and the evidence when the evidence had nothing to do with the model. The results also show that the participants mostly (...)
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  • Special Theory of Relativity in South Korean High School Textbooks and New Teaching Guidelines.Jinyeong Gim - 2016 - Science & Education 25 (5-6):575-610.
    South Korean high school students are being taught Einstein’s Special Theory of Relativity. In this article, I examine the portrayal of this theory in South Korean high school physics textbooks and discuss an alternative method used to solve the analyzed problems. This examination of how these South Korean textbooks present this theory has revealed two main flaws: First, the textbooks’ contents present historically fallacious backgrounds regarding the origin of this theory because of a blind dependence on popular undergraduate textbooks, which (...)
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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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  • Examining Elementary Students’ Development of Oral and Written Argumentation Practices Through Argument-Based Inquiry.Ying-Chih Chen, Brian Hand & Soonhye Park - 2016 - Science & Education 25 (3-4):277-320.
    Argumentation, and the production of scientific arguments are critical elements of inquiry that are necessary for helping students become scientifically literate through engaging them in constructing and critiquing ideas. This case study employed a mixed methods research design to examine the development in 5th grade students’ practices of oral and written argumentation from one unit to another over 16 weeks utilizing the science writing heuristic approach. Data sources included five rounds of whole-class discussion focused on group presentations of arguments that (...)
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  • Exploring Secondary Students’ Epistemological Features Depending on the Evaluation Levels of the Group Model on Blood Circulation.Shinyoung Lee & Heui-Baik Kim - 2014 - Science & Education 23 (5):1075-1099.
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  • Revisiting School Scientific Argumentation from the Perspective of the History and Philosophy of Science.Agustín Adúriz-Bravo - 2014 - In Michael R. Matthews (ed.), International Handbook of Research in History, Philosophy and Science Teaching. Springer. pp. 1443-1472.
    This chapter aims to revisit the notion of argumentation that is currently used in science education. After acknowledging a consolidated tendency of linguistics-based approaches to the study of ‘school scientific argumentation’, the chapter proposes to shift the interest towards an examination of the epistemic aspects of argumentation, i.e. those that derive from its central participation in science as a process and as a product. The premise of the chapter is that the contributions of the philosophy and history of science and (...)
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  • Using Computer Simulations for Promoting Model-based Reasoning.Maria Develaki - 2017 - Science & Education 26 (7-9):1001-1027.
    Scientific reasoning is particularly pertinent to science education since it is closely related to the content and methodologies of science and contributes to scientific literacy. Much of the research in science education investigates the appropriate framework and teaching methods and tools needed to promote students’ ability to reason and evaluate in a scientific way. This paper aims to contribute to an extended understanding of the nature and pedagogical importance of model-based reasoning and to exemplify how using computer simulations can support (...)
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  • Models in Science and in Learning Science: Focusing Scientific Practice on Sense-making.Cynthia Passmore, Julia Svoboda Gouvea & Ronald Giere - 2014 - In Michael R. Matthews (ed.), International Handbook of Research in History, Philosophy and Science Teaching. Springer. pp. 1171-1202.
    The central aim of science is to make sense of the world. To move forward as a community endeavor, sense-making must be systematic and focused. The question then is how do scientists actually experience the sense-making process? In this chapter we examine the “practice turn” in science studies and in particular how as a result of this turn scholars have come to realize that models are the “functional unit” of scientific thought and form the center of the reasoning/sense-making process. This (...)
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  • Discussion of the Controversy Concerning a Historical Event Among Pre-service Teachers.Rosária Justi & Paula Cristina Cardoso Mendonça - 2016 - Science & Education 25 (7-8):795-822.
    As part of a teacher training project, 16 future chemistry teachers participated in a dramatisation activity, in which they discussed a controversy concerning an event from the history of science: the awarding of the Nobel Prize in Chemistry to Fritz Haber in 1918. Preparations for the role-play activity, the dramatisation of the mock trial, and the subsequent discussions were video-recorded. We also collected the written material produced by the pre-service teachers and the reflective journals they produced during their involvement with (...)
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  • Using History and Philosophy of Science to Promote Students’ Argumentation.Pablo Antonio Archila - 2015 - Science & Education 24 (9-10):1201-1226.
    This article describes the effect of a teaching–learning sequence based on the discovery of oxygen in promoting students’ argumentation. It examines the written and oral arguments produced by 63 high school students in France during a complete TLS supervised by the same teacher. The data used in this analysis was derived from students’ written responses, audio and video recordings, and written field notes. The first goal of this investigation was to provide evidence that an approach combining history and philosophy of (...)
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  • A new framework for teaching scientific reasoning to students from application-oriented sciences.Wybo Houkes & Krist Vaesen - 2021 - European Journal for Philosophy of Science 11 (2):1-16.
    About three decades ago, the late Ronald Giere introduced a new framework for teaching scientific reasoning to science students. Giere’s framework presents a model-based alternative to the traditional statement approach—in which scientific inferences are reconstructed as explicit arguments, composed of (single-sentence) premises and a conclusion. Subsequent research in science education has shown that model-based approaches are particularly effective in teaching science students how to understand and evaluate scientific reasoning. One limitation of Giere’s framework, however, is that it covers only one (...)
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  • Coherence of Pre-service Physics Teachers’ Views of the Relatedness of Physics Concepts.Maija Nousiainen - 2013 - Science & Education 22 (3):505-525.
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