A la fin du XIXe siècle, le progrès des sciences et des techniques parut ouvrir une ère de bonheur où l'homme, délivré des tâches serviles et de toutes les superstitions, serait enfin le maître de la nature et de son propre destin. Mais le XXe siècle ne tint pas ces promesses. Certes, le progrès des sciences a fait reculer la mortalité infantile et allonger l'espérance de vie. Les nouveaux moyens de communication ont permis la circulation rapide d'informations autour du globe. (...) Mais notre environnement est menacé par toutes sortes de déchets. La biologie a ouvert des voies effrayantes. l'automatisation a bouleversé le monde du travail. La nécessité de former des scientifiques pour créer et maîtriser ces nouveaux outils a fait reculer la culture classique. De tels changements ont obscurci les repères traditionnels, les esprits sont déroutés, le sens est en crise. A l'entrée du troisième millénaire, l'Académie d'Education et d'Etudes sociales ne pouvait laisser ces questions dans l'ombre : elles sont trop souvent l'objet de débats plus passionnés que fondés et raisonnés. La science menace-t-elle l'homme et son environnement? Pèse-t-elle sur la cohésion sociale et la démocratie? Quelle est sa place dans la culture, à côté de la philosophie? Comment le chrétien se situe-t-il dans ce monde scientifique et technique? Par une étude raisonnée de ces questions, l'AES souhaite délivrer un message d'espoir et de confiance, et contribuer à mettre le développement scientifique et technique au service de l'homme, suivant la parole de l'Ecclésiastique : " Le Très-Haut a donné à l'homme le savoir pour être glorifié dans ses merveilles " (17,8). (shrink)

Science educators and those who investigate science learning have tended, for good reason, to focus their attention on students' conceptual development, Such a focus is, however, too narrow to provide full and proper understanding of the complexities of original science learning. Recently developmental cognitive psychologists have called on the work of postpositivistic philosophers of science, especially Thomas Kuhn, to bolster their research into conceptual development in science acquisition. What these psychologists have not recognized is that (...) Kuhn's position is actually a derivative of Wittgenstein's methodological nominalism, a viewpoint far more favorable to behaviorism than cognitive psychology. After drawing out some of the consequences of this fact for the developmental cognitive psychologist program for studying science learning, we suggest our own radical alternative. Drawing on Floden, Buchmann and Schwille's idea of “Breaking with Everyday Experience” we propose an alternative notion of original science learning in terms of Alfred Schutz's modification of Williams James' many worlds thesis. The many worlds thesis will allow us to better understand students' difficulty in learning idealized worlds such as science, worlds that represent a discontinuous break with ordinary everyday practical experience. (shrink)

This anthology contains selected papers from the 'Science as Culture' conference held at Lake Como, and Pavia University Italy, 15-19 September 1999. The conference, attended by about 220 individuals from thirty countries, was a joint venture of the International History, Philosophy and Science Teaching Group (its fifth conference) and the History of Physics and Physics Teaching Division of the European Physical Society (its eighth conference). The magnificient Villa Olmo, on the lakeshore, provided a memorable location for the presentors (...) of the 160 papers and the audience that discussed them. The conference was part of local celebrations of the bicentenary of Alessandro Volta's creation of the battery in 1799. Volta was born in Como in 1745, and for forty years from 1778 he was professor of experimental physics at Pavia University. The conference was fortunate to have had the generous financial support of the Italian government's Volta Bicentenary Fund, Lombardy region, Pavia University, Italian Research Council, and Kluwer Academic Publishers. The papers included here, have or will be, published in the journal Science & Education, the inaugural volume (1992) of which was a landmark in the history of science education publication, because it was the first journal in the field devoted to contributions from historical, philosophical and sociological scholarship. Clearly these 'foundational' disciplines inform numerous theoretical, curricular and pedagogical debates in science education. Contemporary Concerns The reseach promoted by the International and European Groups, and by the journal, is central to science education programmes in most areas of the world. (shrink)

Mentalities like scientism and relativism idealise or belittle science respectively, and thus hurt science education and our literacy. However, it seems very hard to avoid the former mentality without sliding to the latter, and vise versa. I will suggest that part of what makes balancing between the two so difficult, is a representational account of meaning that science educators, like most of us really, usually endorse. Scientism then, arises from the assumption that ​there is such a (...) thing called science​. Relativism, on the other hand, assumes that ​there is no such thing called science,t​hereisnorealmeaningattachedtotheterm​.Wittgenstein'sremarksonrule-following then, could help us escape this twofold danger. Addressing scientism, Wittgensteinian writings remind us that, in order to understand the sciences, we do not need to point to some mental referendum of what science is. We rather need to grasp a matrix of overlapping, often implicit, always evolving rules that govern scientific practices. Addressing relativism, Wittgenstein's comments help us realise that there are always certain criteria about what kinds of things we call by a name; there are rules governing scientific practices, rules that even though they may be context dependent or evolving, are always in play. (shrink)

ABSTRACT This essay argues that science education can gain from close engagement with the history of science both in the training of prospective vocational scientists and in educating the broader public about the nature of science. First it shows how historicizing science in the classroom can improve the pedagogical experience of science students and might even help them turn into more effective professional practitioners of science. Then it examines how historians of science (...) can support the scientific education of the general public at a time when debates over “intelligent design” are raising major questions over the kind of science that ought to be available to children in their school curricula. It concludes by considering further work that might be undertaken to show how history of science could be of more general educational interest and utility, well beyond the closed academic domains in which historians of science typically operate. (shrink)

ABSTRACT This essay argues that science education can gain from close engagement with the history of science both in the training of prospective vocational scientists and in educating the broader public about the nature of science. First it shows how historicizing science in the classroom can improve the pedagogical experience of science students and might even help them turn into more effective professional practitioners of science. Then it examines how historians of science (...) can support the scientific education of the general public at a time when debates over “intelligent design” are raising major questions over the kind of science that ought to be available to children in their school curricula. It concludes by considering further work that might be undertaken to show how history of science could be of more general educational interest and utility, well beyond the closed academic domains in which historians of science typically operate. (shrink)

Both science and ethics are embedded in cultural traditions where truths are shared through education; both need competent critics educated within such traditions. Education in both ought to be directed although moral education demands levels of responsible agency that science education does not. Evolutionary science often carries an implicit or explicit understanding of who and what humans are, one which may not be coherent with the implicit or explicit human self‐understanding in moral (...) class='Hi'>education. The latter in turn may not be coherent with classical human self‐understandings. Moral education may enlighten and elevate the human nature that has evolved biologically. (shrink)

Primary Science Education: A Teacher's Toolkit is an accessible and comprehensive guide to primary school science education and its effective practice in the classroom. Primary Science Education is structured in two parts: Planning for Science and Primary Science in the Classroom. Each chapter covers fundamental topics, such as: curriculum requirements (including the Australian Curriculum and Australian Professional Standards for Teachers); preparing effective learning sequences with embedded authentic assessment; combining science learning with (...) other learning areas, such as technologies and STEM; and critically analysing the teacher's role in the classroom. The text features short-answer and 'Bringing it Together' questions to encourage readers to consolidate their understanding of key themes. Case studies throughout provide guidance on the classroom experience and Teacher Background Information boxes explore topics where more in-depth knowledge is required. The book is supported by a suite of online resources, including interviews with Australian primary teachers and students, and downloadable activities. (shrink)

Explores the teaching and learning of issues relating to the impact of science in society. This title offers practical guidance in devising learning goals and suitable learning and assessment strategies. It helps teachers to provide students with the skills and understanding needed to address these multi-faceted issues.

In this essay, I argue that Roy Bhaskar's philosophy of meta‐Reality creates the middle way to theorize emancipation in critical science education: between empiricism and idealism on the one hand, and naïve realism and relativism, on the other hand. This theorization offers possibilities to transcend the usual dichotomies and dualisms that are often perpetuated in some feminist and multiculturalist accounts of critical science education. Further, meta‐Reality suggests a radically new way to re‐visit the suspect notion of (...) emancipation. The implications for critical science education are discussed. (shrink)

Declarations of the death knell of postmodernism are rather quite commonplace. For its 50th anniversary, The Journal of Educational Philosophy and Theory conducted a philosophical experiment, asking philosophers of education to solicit a comment, argument or position concerning the so-called death of postmodern philosophy. Renia Gasparatou joined this experiment; in this short paper she suggests that, unfortunately, postmodernism is not dead enough!

In this essay, I argue that Roy Bhaskar's philosophy of meta‐Reality creates the middle way to theorize emancipation in critical science education: between empiricism and idealism on the one hand, and naïve realism and relativism, on the other hand. This theorization offers possibilities to transcend the usual dichotomies and dualisms that are often perpetuated in some feminist and multiculturalist accounts of critical science education. Further, meta‐Reality suggests a radically new way to re‐visit the suspect notion of (...) emancipation. The implications for critical science education are discussed. (shrink)

Although postmodernist thought has become prominent in some educational circles, its influence on science education has until recently been rather minor. This paper examines the proposal of Michalinos Zembylas, published earlier in this journal, that Lyotardian postmodernism should be applied to science educational reform in order to achieve the much sought after positive transformation. As a preliminary to this examination several critical points are raised about Lyotard's philosophy of education and philosophy of science which serve (...) to challenge and undermine Zembylas’ project. Subsequently, the three main theses of Lyotard that Zembylas considers beneficial and wishes to transpose onto science classrooms and pedagogy are scrutinized and found to be more of a hindrance than a help to curriculum reformers. (shrink)

Constructivism is one of the most influential theories in contemporary education and learning theory. It has had great influence in science education. The papers in this collection represent, arguably, the most sustained examination of the theoretical and philosophical foundations of constructivism yet published. Topics covered include: orthodox epistemology and the philosophical traditions of constructivism; the relationship of epistemology to learning theory; the connection between philosophy and pedagogy in constructivist practice; the difference between radical and social constructivism, and (...) an appraisal of their epistemology; the strengths and weaknesses of the Strong Programme in the sociology of science and implications for science education. The book contains an extensive bibliography. Contributors include philosophers of science, philosophers of education, science educators, and cognitive scientists. The book is noteworthy for bringing this diverse range of disciplines together in the examination of a central educational topic. (shrink)

While calls to integrate ethics into computer science education go back decades, recent high-profile ethical failures related to computing technology by large technology companies, governments, and academic institutions have accelerated the adoption of computer ethics education at all levels of instruction. Discussions of how to integrate ethics into existing computer science programmes often focus on the structure of the intervention—embedded modules or dedicated courses, humanists or computer scientists as ethics instructors—or on the specific content to be (...) included—lists of case studies and essential topics to cover. While proponents of computer ethics education often emphasize the importance of closely connecting ethical and technical content in these initiatives, most do not reflect in depth on the variety of ways in which the disciplines can be combined. In this paper, I deploy a framework from cross- disciplinary studies that categorizes academic projects that work across disciplines as multidisciplinary, interdisciplinary, or transdisciplinary, depending on the degree of integration. When applied to computer ethics education, this framework is orthogonal to the structure and content of the initiative, as I illustrate using examples of dedicated ethics courses and embedded modules. It therefore highlights additional features of cross-disciplinary teaching that need to be considered when planning a computer ethics programme. I argue that computer ethics education should aim to be at least interdisciplinary—multidisciplinary initiatives are less aligned with the pedagogical aims of computer ethics—and that computer ethics educators should experiment with fully transdisciplinary education that could transform computer science as a whole for the better. (shrink)

In this paper, I utilise key postcolonial perspectives on multiculturalism and boundaries to reconsider some of science education's scholarship on cultural diversity in order to extend the discourses and methodologies of science education. I begin with a brief overview of postcolonialism that argues its ability to offer theoretical insights to help revise science education's philosophical frameworks in the face of the newly intercivilisational encounters of contemporaneity. I then describe the constructs of multiculturalism, and borders (...) and ‘border thinking’ that become useful to develop postcolonial readings as an active methodology of critique able to intervene and develops more revealing interpretations of some of science education's scholarship and differentiated experiences. As the focus of these interventions, I have selected to discuss Cobern and Loving's ‘Defining “Science” in a Multicultural World: Implications for science education’ and Siegel's ‘Multiculturalism, Universalism and Science Education: In search of common ground’ from the ongoing discussion on multiculturalism and cultural diversity within the journal Science Education. Finally, I conclude this paper with some general comments regarding postcolonialism and the science education scholarship on cultural diversity. (shrink)

INTRODUCTION What relevance — if any — does philosophy of science have for science education? Unfortunately, this question has been largely unexplored. ...