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  1. Adapting practice-based philosophy of science to teaching of science students.Sara Green, Hanne Andersen, Kristian Danielsen, Claus Emmeche, Christian Joas, Mikkel Willum Johansen, Caio Nagayoshi, Joeri Witteveen & Henrik Kragh Sørensen - 2021 - European Journal for Philosophy of Science 11 (3):1-18.
    The “practice turn” in philosophy of science has strengthened the connections between philosophy and scientific practice. Apart from reinvigorating philosophy of science, this also increases the relevance of philosophical research for science, society, and science education. In this paper, we reflect on our extensive experience with teaching mandatory philosophy of science courses to science students from a range of programs at University of Copenhagen. We highlight some of the lessons we have learned in making philosophy of science “fit for teaching” (...)
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  • To Describe, Transmit or Inquire: Ethics and technology in school.Viktor Gardelli - 2016 - Dissertation, Luleå University of Technology
    Ethics is of vital importance to the Swedish educational system, as in many other educational systems around the world.Yet, it is unclear how ethics should be dealt with in school, and prior research and evaluations have found serious problems regarding ethics in education.The field of moral education lacks clear and widely accepted definitions of key concepts, and these ambiguities negatively impact both research and educational practice. This thesis draws a distinction between three approaches to ethics in school – the descriptive (...)
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  • Teachers’ Ways of Talking About Nature of Science and Its Teaching.Malin Ideland, Andreas Redfors, Lena Hansson & Lotta Leden - 2015 - Science & Education 24 (9-10):1141-1172.
    Nature of science has for a long time been regarded as a key component in science teaching. Much research has focused on students’ and teachers’ views of NOS, while less attention has been paid to teachers’ perspectives on NOS teaching. This article focuses on in-service science teachers’ ways of talking about NOS and NOS teaching, e.g. what they talk about as possible and valuable to address in the science classroom, in Swedish compulsory school. These teachers are, according to the national (...)
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  • Joule’s Experiments on the Heat Evolved by Metallic Conductors of Electricity.R. A. Martins & A. P. B. Silva - 2020 - Foundations of Science 26 (3):625-701.
    The focus of this paper is one of James Prescott Joule’s scientific contributions: the laws of heat production by electric currents in conductors. In 1841, the 22 years old Joule published a paper with the title “On the heat evolved by metallic conductors of electricity, and in the cells of a battery during electrolysis” where he presented an experimental study of that phenomenon and proposed two laws that were allegedly supported by his trials. On closer inspection, both his laboratory work (...)
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  • Teaching and Learning Nature of Science in Elementary Classrooms.Valarie L. Akerson, Ingrid Carter, Khemmawadee Pongsanon & Vanashri Nargund-Joshi - 2019 - Science & Education 28 (3-5):391-411.
    Our goal in this article is to provide research-based strategies for embedding Nature of Science into science instruction at the elementary level. We thus intend to aid researchers, professional developers, and teachers in noting that not only is it important and possible to teach NOS at the elementary levels, but also that elementary students can learn ideas about NOS. The manuscript reviews research from the past two decades on what students of ages 5 to 12 understand about NOS after appropriate (...)
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  • Risk in Science Instruction.Julia Hansen & Marcus Hammann - 2017 - Science & Education 26 (7-9):749-775.
    Risk is always present in people’s lives: diseases, new technologies, socio-scientific issues such as climate change, and advances in medicine—to name just a few examples—all carry risks. To be able to navigate risks in everyday life, as well as to participate in social debate on risk-related issues, students need to develop risk competence. Science education can be a powerful tool in supporting students’ risk competence, which is an important component of scientific literacy. As there are different definitions of risk within (...)
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  • Report on a Boston University Conference December 7–8, 2012 on How Can the History and Philosophy of Science Contribute to Contemporary US Science Teaching?Peter Garik & Yann Benétreau-Dupin - 2014 - Science & Education 23 (9):1853-1873.
    This is an editorial report on the outcomes of an international conference sponsored by a grant from the National Science Foundation to the School of Education at Boston University and the Center for Philosophy and History of Science at Boston University for a conference titled: How Can the History and Philosophy of Science Contribute to Contemporary US Science Teaching? The presentations of the conference speakers and the reports of the working groups are reviewed. Multiple themes emerged for K-16 education from (...)
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  • Associations Between Attitudes Towards Science and Children’s Evaluation of Information About Socioscientific Issues.Sihan Xiao & William A. Sandoval - 2017 - Science & Education 26 (3-4):247-269.
    Science educators are typically dismayed by the failure of students to use relevant scientific knowledge when reasoning about socioscientific issues. Except for the well-documented association between having more knowledge about a topic and a tendency to use that knowledge, the influences on students’ evaluation of information in socioscientific issues are not well understood. This study presents an initial investigation into the associations between upper elementary students’ attitudes towards science and their evaluation of information about a socioscientific issue. We surveyed the (...)
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  • From black and white to shades of grey.Lotta Leden, Lena Hansson & Andreas Redfors - 2017 - Science & Education 26 (5):483-511.
    Traditional school science has been described as focused on indisputable facts where scientific processes and factors affecting these processes become obscured or left undiscussed. In this article, we report on teachers’ perspectives on the teaching of sociocultural and subjective aspects of the nature of science as a way to accomplish a more nuanced science teaching in Swedish compulsory school. The teachers took part in a longitudinal study on NOS and NOS teaching that spanned 3 years. The data consists of recorded (...)
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  • The Impact of a Course on Nature of Science Pedagogical Views and Rationales.Jerrid W. Kruse, Jaclyn M. Easter, Hallie S. Edgerly, Colin Seebach & Neal Patel - 2017 - Science & Education 26 (6):613-636.
    This study explored changes in preservice teachers’ nature of science pedagogical views and nature of science rationales using pre- and post-course written responses as well as interview data. Through systematic analysis, themes were generated and compared to the NOS literature. Comparisons between pre- and post-course data demonstrate improved and deepened NOS views, NOSP views that are more aligned with NOS literature, and a greater number of rationales for including NOS. All participants were enrolled in the “Inquiry and Natures of Science, (...)
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  • Nature of Science Contextualized: Studying Nature of Science with Scientists.Veli-Matti Vesterinen & Suvi Tala - 2015 - Science & Education 24 (4):435-457.
    Understanding nature of science is widely considered an important educational objective and views of NOS are closely linked to science teaching and learning. Thus there is a lively discussion about what understanding NOS means and how it is reached. As a result of analyses in educational, philosophical, sociological and historical research, a worldwide consensus about the content of NOS teaching is said to be reached. This consensus content is listed as a general statement of science, which students are supposed to (...)
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  • Emphasizing the History of Genetics in an Explicit and Reflective Approach to Teaching the Nature of Science.Cody Tyler Williams & David Wÿss Rudge - 2016 - Science & Education 25 (3-4):407-427.
    Science education researchers have long advocated the central role of the nature of science for our understanding of scientific literacy. NOS is often interpreted narrowly to refer to a host of epistemological issues associated with the process of science and the limitations of scientific knowledge. Despite its importance, practitioners and researchers alike acknowledge that students have difficulty learning NOS and that this in part reflects how difficult it is to teach. One particularly promising method for teaching NOS involves an explicit (...)
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  • Understanding the Nature of Science Through a Critical and Reflective Analysis of the Controversy Between Pasteur and Liebig on Fermentation.Antonio García-Carmona & José Antonio Acevedo-Díaz - 2017 - Science & Education 26 (1-2):65-91.
    This article presents a qualitative study, descriptive-interpretive in profile, of the effectiveness in learning about the nature of science of an activity relating to the historical controversy between Pasteur and Liebig on fermentation. The activity was implemented during a course for pre-service secondary science teachers specializing in physics and chemistry. The approach was explicit and reflective. Three research questions were posed: What conceptions of NOS do the PSSTs show after a first reflective reading of the historical controversy?, What role is (...)
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  • Teaching the Conceptual History of Physics to Physics Teachers.Peter Garik, Luciana Garbayo, Yann Benétreau-Dupin, Charles Winrich, Andrew Duffy, Nicholas Gross & Manher Jariwala - 2015 - Science & Education 24 (4):387-408.
    For nearly a decade we have taught the history and philosophy of science as part of courses aimed at the professional development of physics teachers. The focus of the history of science instruction is on the stages in the development of the concepts and theories of physics. For this instruction, we designed activities to help the teachers organize their understanding of this historical development. The activities include scientific modeling using archaic theories. We conducted surveys to gauge the impact on the (...)
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  • Exploring the Complexity of Students’ Scientific Explanations and Associated Nature of Science Views Within a Place-Based Socioscientific Issue Context.Benjamin C. Herman, David C. Owens, Robert T. Oertli, Laura A. Zangori & Mark H. Newton - 2019 - Science & Education 28 (3-5):329-366.
    In addition to considering sociocultural, political, economic, and ethical factors, effectively engaging socioscientific issues requires that students understand and apply scientific explanations and the nature of science. Promoting such understandings can be achieved through immersing students in authentic real-world contexts where the SSI impacts occur and teaching those students about how scientists comprehend, research, and debate those SSI. This triangulated mixed-methods investigation explored how 60 secondary students’ trophic cascade explanations changed through their experiencing place-based SSI instruction focused on the Yellowstone (...)
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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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  • Working Alongside Scientists.Dayle Anderson & Azra Moeed - 2017 - Science & Education 26 (3-4):271-298.
    Current curriculum demands require primary teachers to teach about the Nature of Science; yet, few primary teachers have had opportunity to learn about science as a discipline. Prior schooling and vicarious experiences of science may shape their beliefs about science and, as a result, their science teaching. This qualitative study describes the impact on teacher beliefs about science and science education of a programme where 26 New Zealand primary teachers worked fulltime for 6 months alongside scientists, experiencing the nature of (...)
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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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  • Comparing the Impact of Two Science-as-Inquiry Methods on the NOS Understanding of High-School Biology Students.Dina Tsybulsky - 2018 - Science & Education 27 (7-8):661-683.
    The current study compared the effectiveness of two methods in biology teaching that are based on the science-as-inquiry approach: visits to authentic university laboratories and analyzing adapted primary literature. The methods’ effectiveness was measured in terms of high-school students’ increased understanding following a 6-week intervention that emphasized five major aspects of the nature of science : the tentativeness of scientific understanding, the cooperative nature of the scientific process, methodological diversity, the sociocultural embeddedness of scientific knowledge, and the aims of scientific (...)
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  • Looking at the Social Aspects of Nature of Science in Science Education Through a New Lens.Sila Kaya, Sibel Erduran, Naomi Birdthistle & Orla McCormack - 2018 - Science & Education 27 (5-6):457-478.
    Particular social aspects of the nature of science, such as economics of, and entrepreneurship in science, are understudied in science education research. It is not surprising then that the practical applications, such as lesson resources and teaching materials, are scarce. The key aims of this article are to synthesize perspectives from the literature on economics of science, entrepreneurship, NOS, and science education in order to have a better understanding of how science works in society and illustrate how such a synthesis (...)
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  • A Theater-Based Device for Training Teachers on the Nature of Science.Énery Melo & Manuel Bächtold - 2018 - Science & Education 27 (9-10):963-986.
    This article presents and discusses an innovative pedagogical device designed for training pre-service teachers on the nature of science. We endorse an approach according to which aspects of the nature of science should be explicitly discussed in order to be understood by learners. We identified quantum physics, and more precisely the principles of uncertainty and complementarity, as a rich topic suitable for such a discussion. Our training device consists in preparing and staging a new type of theater, the “scientific experimental (...)
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  • Science, Coloniality, and “the Great Rationality Divide”.Malin Ideland - 2018 - Science & Education 27 (7-8):783-803.
    This article aims to analyze how science is discursively attached to certain parts of the world and certain “kinds of people,” i.e., how scientific knowledge is culturally connected to the West and to whiteness. In focus is how the power technology of coloniality organizes scientific content in textbooks as well as how science students are met in the classroom. The empirical data consist of Swedish science textbooks. The analysis is guided by three questions: if and how the colonial history of (...)
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  • When Things Go Wrong: Implementing Historical-Investigative Activities in the Classroom.Renata da Fonseca Moraes Batista & Cibelle Celestino Silva - 2019 - Science & Education 28 (9-10):1135-1151.
    In this project, we worked in partnership with school teachers who are frequent users of experimental kits available for loan to schools using the historical-investigative approach. The original kits bring a traditional approach to experimentation, without the presence of the history of science. We developed and implemented new guides to the kits, without changing their materials and instruments. Design-based research supports the development methodology; the school science topics covered in this paper are Joseph Black’s studies on latent and specific heat. (...)
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