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1.
Keith S. Taber 《Cultural Studies of Science Education》2017,12(1):81-91
Lisa Borgerding’s work highlights how students can understand evolution without necessarily committing to it, and how learners may come to see it as one available way of thinking amongst others. This is presented as something that should be considered a successful outcome when teaching about material that many students may find incompatible with their personal worldviews. These findings derive from work exploring a cause célèbre of the science education community—the teaching of natural selection in cultural contexts where learners feel they have strong reasons for rejecting evolutionary ideas. Accepting that students may understand but not commit to scientific ideas that are (from some cultural perspectives) controversial may easily be considered as a form of compromise position when teaching canonical science prescribed in curriculum but resisted by learners. Yet if we take scholarship on the nature of science seriously, and wish to reflect the nature of scientific knowledge in science teaching, then the aim of science education should always be to facilitate understanding of, yet to avoid belief in, the ideas taught in science lessons. The philosophy of science suggests that scientific knowledge needs to be understood as theoretical in nature, as conjectural and provisional; and the history of science warns of the risks of strongly committing to any particular conceptualisation as a final account of some feature of nature. Research into student thinking and learning in science suggests that learning science is often a matter of coming to understand a new viable way of thinking about a topic to complement established ways of thinking. Science teaching should then seek to have students appreciate scientific ideas as viable ways of making sense of the currently available empirical evidence, but should not be about persuading students of the truth of any particular scientific account. 相似文献
2.
How a Deweyan science education further enables ethics education 总被引:1,自引:0,他引:1
Scott Webster 《Science & Education》2008,17(8-9):903-919
This paper questions the perceived divide between ‘science’ subject matter and ‘moral’ or ‘ethical’ subject matter. A difficulty that this assumed divide produces is that science teachers often feel that there needs to be ‘special treatment’ given to certain issues which are of an ethical or moral nature and which are ‘brought into’ the science class. The case is made in this article that dealing with ethical issues in the science class should not call for a sensitivity that is beyond the expertise of the science teacher. Indeed it is argued here that science teachers in particular have a great deal to offer in enabling ethics education. To overcome this perceived divide between science and values it needs to be recognised that the educative development of learners is both scientific and moral. I shall be using a Deweyan perspective to make the case that we as science teachers can overcome this apparent divide and significantly contribute to an ethics education of our students. 相似文献
3.
Research in the teaching and learning of evolutionary biology has revealed persistent difficulties in student understanding of fundamental Darwinian concepts. These difficulties may be traced, in part, to science instruction that is based on philosophical conceptions of science that are no longer viewed as adequately characterizing the diverse nature of scientific practice, especially in evolutionary biology. This mismatch between evolution as practiced and the nature of science as perceived by researchers and educators has a long history extending back to the publication of Darwin's theory of natural selection. An examination of how this theory was received by the scientific community of the time may provide insight into some of the difficulties that students have today in learning these important biological concepts. The primary difficulties center around issues of metaphysics and scientific method, aspects of the nature of science too often ignored in science education. Our intent is not to offer a specific course of action to remedy the problems educators currently face, but rather to suggest an alternative path one might take to eventually reach a solution. That path, we argue, should include the use of broader models of science that incorporate these elements of scientific practice to structure teaching and education research in evolution. © 1998 John Wiley & Sons, Inc. J Res Sci Teach 35: 1069–1089, 1998 相似文献
4.
David C. Owens Rachel S. A. Pear Hanan A. Alexander Michael J. Reiss Tali Tal 《Research in Science Education》2018,48(6):1171-1186
There is a long history of some students finding that the science instruction they receive in schools fails to address their deeply held concerns about the theory of evolution. Such concerns are principally religious, though there are also students with deeply held religious views who are perfectly comfortable with the theory of evolution. New instructional strategies are emerging, aimed at reducing the tensions that may exist between evolution and religion by making space for students to examine their own views and recognize the spectrum of views that exists between atheistic evolution and special creation, as well as the bounded nature of science and different ways of knowing. In this article, we discuss the teaching of evolution in societies where acceptance of the theory of evolution is far from universal, and argue that an approach based on pedagogy of difference has considerable potential to enhance students’ development of epistemic insight through recognition of the multiple perspectives that exist concerning the relationship between religion and science. In doing so, we explicate precisely what pedagogy of difference entails and introduce an approach that should enhance evolution education, and even aid students’ situating of science as a resource for making decisions about issues with scientific and societal aspects where the acknowledgement of multiple perspectives is valuable. 相似文献
5.
This study uses qualitative content analysis to examine 355 open-ended questions, presented by 16–19 –year-old international students, to find out what students want to learn about climate change. The study finds that students have a high level of consideration toward scientific, societal, and ethical aspects of climate change and that students' questions are multidisciplinary and complex in nature. Most important, the findings show that students ask questions on the same themes that researchers say should be addressed in multidisciplinary climate change education. Based on the findings, this article suggests that climate change education could be developed by adopting guided inquiry. 相似文献
6.
Moritz Krell Annette Upmeier zu Belzen Dirk Krüger 《Research in Science Education》2014,44(1):109-132
It is argued that knowledge about models is an important part of a profound understanding of Nature of Science. Consequently, researchers have developed different ‘levels of understanding’ to analyse students’, teachers’, or experts’ comprehension of this topic. In some approaches, global levels of understanding have been developed which mirror the idea of an understanding of models and modelling as a whole. Opposed to this, some authors have developed levels of understanding for distinct aspects concerning models and modelling in science (i.e. aspect-dependent levels). This points to an important issue for science education research since global conceptualisations might lead to less differentiated assessments and interventions than aspect-dependent ones. To contribute to this issue, the article summarises conceptualisations of both global and aspect-dependent levels of understanding models and modelling that have been developed in science education. Further, students’ understanding of the aspects nature of models, multiple models, purpose of models, testing models, and changing models has been assessed (N?=?1,180; 11 to 19 years old; secondary schools; Berlin, Germany). It is discussed to what extent the data support the notion of global or aspect-dependent levels of understanding models and modelling in science. The results suggest that students seem to have a complex and at least partly inconsistent pattern of understanding models. Furthermore, students with high nonverbal intelligence and good marks seem to have a comparatively more consistent and more elaborated understanding of models and modelling than weaker students. Recommendations for assessment in science education research and teaching practice are made. 相似文献
7.
The currency, relevancy and changing nature of science makes it a natural topic of focus for mass media outlets. Science teachers
and students can capitalize on this wealth of scientific information to explore socio-scientific and sustainability issues;
however, without a lens on how those media are created and how representations of science are constructed through media, the
use of mass media in the science classroom may be risky. Limited research has explored how science teachers naturally use
mass media to explore scientific issues in the classroom or how mass media is used to address potential overlaps between socio-scientific-issue
based instruction and education for sustainability. This naturalistic study investigated the reported and actual classroom
uses of mass media by secondary science teachers’ to explore socio-scientific and sustainability issues as well as the extent
to which their instructional approaches did or did not overlap with frameworks for SSI-based instruction, education for sustainability,
and media literacy education. The results of this study suggest that secondary science teachers use mass media to explore
socio-scientific and sustainability issues, but their use of frameworks aligned with SSI-based, education for sustainability,
and media literacy education was limited. This paper provides suggestions for how we, as science educators and researchers,
can advance a teaching and learning agenda for encouraging instruction that more fully utilizes the potential of mass media
to explore socio-scientific issues in line with perspectives from education for sustainability. 相似文献
8.
Carolina Castano 《Cultural Studies of Science Education》2012,7(3):703-718
Current discourses about science education show a wide concern towards humanisation and a more socio-cultural perspective of school science. They suggest that science education can serve diverse purposes and be responsive to social and environmental situations we currently face. However, these discourses and social approaches to science education tend to focus on global issues. They do not respond to the immediate needs and local context of some communities. I discuss in this paper why the purposes of science education need to be extended to respond to the local issue of violence. For this, I present a case study with a group of 38 students from a poor population in Bogotá, Colombia, located in one of the suburbs with highest levels of crime in the city. I examine the ways that science education contributes to and embodies its own forms of violence and explore how a new approach to science education could contribute to break the cycle of violence. 相似文献
9.
An understanding of current views of the nature of science continues to be regarded as an important outcome of school science. Studies of the conceptions of the nature of science held by primary school teacher education students is therefore important. This article reports the conceptions held by 73 preservice primary teachers. There were elements in the conceptions of the nature of science articulated by this group which clearly were not in accord with modern views. For example, one in five, in many instances, chose responses which would be unacceptable to many modern philosophies of science. Further, many chose 'don't know' as a response to a variety of specific propositions about science, ranging from a low of 1.5% to 3.15% of respondents. The responses of school leavers and mature age students did not differ in any substantial way. In addition, the use of newspaper science reports is described as a novel means to probe conceptions of the nature of science. 相似文献
10.
Gi-Zen Liu Wan-Yu Chiu Chih-Chung Lin Neil E. Barrett 《Journal of Science Education and Technology》2014,23(6):827-839
To date, the concept of English for Specific Purposes has brought about a great impact on English language learning across various disciplines, including those in science education. Hence, this review paper aimed to address current English language learning in the science disciplines through the practice of computer-assisted language learning to identify the use of learning technologies in science-based literacy. In the literature review, the researchers found that science-based literacy instruction shares many pedagogical aims with English language teaching in terms of reading, writing, listening and speaking, allowing it to be classified as English for Scientific Purposes (EScP). To answer the research questions, the researchers conducted the survey by extracting related articles and teaching examples from the Web of Science. In the search procedure, the researchers used the keywords science OR scientific AND technolog* OR comput* in ten selected journals of social science citation index. Only articles which are specified as journal articles rather than other document types were included. After compiling the corpora, the researchers compared the trends, methodologies and results of EScP instruction in science education. The implications of this study include the opportunities, advantages and challenges for EScP instruction in science education to further develop better educational approaches, adopt new technologies, as well as offer some directions for researchers to conduct future studies. 相似文献
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Although there is universal consensus both in the science education literature and in the science standards documents to the effect that students should learn not only the content of science but also its nature, there is little agreement about what that nature is. This led many science educators to adopt what is sometimes called ??the consensus view?? about the nature of science (NOS), whose goal is to teach students only those characteristics of science on which there is wide consensus. This is an attractive view, but it has some shortcomings and weaknesses. In this article we present and defend an alternative approach based on the notion of family resemblance. We argue that the family resemblance approach is superior to the consensus view in several ways, which we discuss in some detail. 相似文献
13.
Vicente Talanquer 《Science & Education》2013,22(7):1757-1773
Studies of the philosophy of chemistry over the past 15 years suggest that chemistry is a hybrid science which mixes scientific pursuits with technological applications. Dominant universal characterizations of the nature of science thus fail to capture the essence of the discipline. The central goal of this position paper is to encourage reflection about the extent to which dominant views about quality science education based on universal views of scientific practices may constrain school chemistry. In particular, we discuss how these predominant ideas restrict the development of chemistry curricula and instructional approaches that may better support the learning of the ideas and practices that studies of the philosophy of chemistry suggest are at the core of the discipline. Our analysis suggests that philosophical studies about the nature of chemistry invite us to transgress traditional educational boundaries between science and technology, inquiry and design, content and process, and to reconceptualize school chemistry as a paradigmatic techno scientific subject. To support these changes, chemical education researchers should expand the scope of their investigations to better understand how students and teachers reason about and engage in more authentic ways of chemical thinking and doing. 相似文献
14.
Robyn Lunn-Collier Jodie I. Layman-Lemphane Karin J. Baatjes Janine Correia 《Anatomical sciences education》2022,15(4):745-753
Anatomical science is a fundamental element of undergraduate medical education; thus, it is imperative that the course serves future medical professionals when entering clinical practice. However, anatomical education has faced challenges in recent years including decreased allocated time, increased class sizes and over-stretched staff. Technological advancements in anatomical education may provide relief to these issues. Therefore, exploring clinicians' perspective on the clinical relevance and efficacy of anatomical education, within an African context, can inform its future. This study used a qualitative research approach within an interpretive paradigm. Eight semi-structured one-on-one interviews were conducted with clinicians associated with Stellenbosch University and Tygerberg Hospital. Thematic analysis was employed to analyze the data, creating themes and codes. Trust worthiness of the data was ensured through peer debriefing and member checking. Results reveal that clinicians find clinically relevant anatomy valuable to students. However, some feel that this is not delivered effectively at present. Clinicians see potential for the incorporation of clinical technologies into anatomical pedagogy. Although clinicians are hopeful for new technological developments in anatomical education, concerns were reported about its autonomous nature. This study concludes that although clinically relevant anatomical education is beneficial to students, the time and the resources via which it is delivered should be considered. There is optimism for the future of anatomical education with the advancements of technologically based educational resources, however, new resources should be incorporated with planning and supervision. 相似文献
15.
Rosemary S. Russ 《科学教学研究杂志》2018,55(1):94-120
Although research and policy suggest science and mathematics teachers should attend to their student's thinking during instruction, our field has inadequately defined what that means in relation to our ultimate goals for the practice. Here I present a theoretical argument that, in making their definitions, researchers should leverage the ways students understand such attention by characterizing teacher attention based on the epistemological messages it sends students about the nature of knowledge and learning in the classroom. Using data collected from high school science and mathematics teachers with a new video‐capture methodology, I present an analysis of variability in epistemological messages of teacher attention to illustrate work could unfold if we as researchers took up the theoretical claims made in this work. In doing so, I endeavor to draw the construct of epistemological messages into our collective conversations about teacher attention, and provide a starting point for our field to begin debating the most productive ways to study and unpack the epistemological messages we value in that teacher attention. I conclude by demonstrating the feasibility of using these messages to distinguish the types of teacher attention our field wants to develop and encourage in teacher education. © 2017 Wiley Periodicals, Inc. J Res Sci Teach 55: 94–120, 2018 相似文献
16.
理解科学本质是科学素养的内涵之一,是实现提高科学素养的科学教育目标的关键因素。现代科学本质观对科学知识、科学探究和科学事业进行了新的诠释。根据现代科学本质观,发展科学本质观下的科学教学理念,构建科学教育的三维目标,形成融入科学本质的科学教学策略,提升学生的科学本质观。 相似文献
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自20世纪后半叶以来,不同学科背景的研究者将基础研究与教育实践相结合,直面人类的学习问题,探究人类思维和学习的过程,设计新的学习情境,提出新的理论和方法论,催生了学习的新科学。学习科学是指面向复杂的真实世界需要的"整合"科学,涉及认知科学、神经科学、教育心理学、计算机科学、人类学、社会学等多元领域,它不仅发展了学习理论,而且对教授科学也做出了贡献。通过围绕知识的本质、学习的实质、学习的方式与形式、以学习为中心设计、学习环境及其支持、学习效果的评价等方面,来探讨学习科学研究的重要问题及学科方法论,进而对其未来研究的发展趋势做出预测。 相似文献
19.
Science education researchers have long advocated the central role of the nature of science (NOS) 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 and reflective approach using the history of science. The purpose of this study was to determine the influence of a historically based genetics unit on undergraduates’ understanding of NOS. The three-class unit developed for this study introduces students to Mendelian genetics using the story of Gregor Mendel’s work. NOS learning objectives were emphasized through discussion questions and investigations. The unit was administered to undergraduates in an introductory biology course for pre-service elementary teachers. The influence of the unit was determined by students’ responses to the SUSSI instrument, which was administered pre- and post-intervention. In addition, semi-structured interviews were conducted that focused on changes in students’ responses from pre- to post-test. Data collected indicated that students showed improved NOS understanding related to observations, inferences, and the influence of culture on science. 相似文献
20.
In this article, the argument is put forth that controversies about the scope and limits of science should be considered in Nature of Science (NOS) teaching. Reference disciplines for teaching NOS are disciplines, which reflect upon science, like philosophy of science, history of science, and sociology of science. The culture of these disciplines is characterized by controversy rather than unified textbook knowledge. There is common agreement among educators of the arts and humanities that controversies in the reference disciplines should be represented in education. To teach NOS means to adopt a reflexive perspective on science. Therefore, we suggest that controversies within and between the reference disciplines are relevant for NOS teaching and not only the NOS but about NOS should be taught, too. We address the objections that teaching about NOS is irrelevant for real life and too demanding for students. First, we argue that science-reflexive meta-discourses are relevant for students as future citizens because the discourses occur publicly in the context of sociopolitical disputes. Second, we argue that it is in fact necessary to reduce the complexity of the above-mentioned discourses and that this is indeed possible, as it has been done with other reflexive elements in science education. In analogy to the German construct Bewertungskompetenz (which means the competency to make informed ethical decisions in scientific contexts), we suggest epistemic competency as a goal for NOS teaching. In order to do so, science-reflexive controversies must be simplified and attitudes toward science must be considered. Discourse on the scientific status of potential pseudoscience may serve as an authentic and relevant context for teaching the controversial nature of reflexion on science. 相似文献