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1.
Clare Christensen 《Studies in Science Education》2013,49(2):205-223
In this paper I consider a role for risk understanding in school science education. Grounds for this role are described in terms of current sociological analyses of the contemporary world as a ‘risk society’ and recent public understanding of science studies where science and risk are concerns commonly linked within the wider community. These concerns connect with support amongst many science educators for the goal of science education for citizenship. From this perspective scientific literacy for decision making on contemporary socioscientific issues is central. I argue that in such decision making, risk understanding has an important role to play. I examine some of the challenges its inclusion in school science presents to science teachers, review previous writing about risk in the science education literature and consider how knowledge about risk might be addressed in school science. I also outline the varying conceptions of risk and suggest some future research directions that would support the inclusion of risk in classroom discussions of socioscientific issues. 相似文献
2.
Eirini Mergoupi-Savaidou Faidra Papanelopoulou Spyros Tzokas 《Science & Education》2012,21(3):293-310
Based on our research on two Athenian daily newspapers for the first decade of the twentieth century, we present some historiographical
reflections concerning the role of the daily press in the circulation of scientific knowledge, ideas and practices. From the
wealth of material provided, we examine some of the ways in which scientific and technical knowledge was made available to
a wider public and contributed to the creation of a general scientific literacy. Although Greece has never been in the forefront
of scientific and technological research, the vast amount of newspaper articles on science and technology, but also references
to science and technology in other kind of articles, show how discussions on science and technology become part of daily life
in order to serve various agendas. Since newspapers address a very wide and diverse public on a daily basis they become privileged
media not only for understanding the role science and technology played in the formation of modern societies, but also for
examining the values and ideas attached to them and communicated to a wider public. 相似文献
3.
田娜 《河北广播电视大学学报》2012,(4):57-59
目前,全球都在肯定人的因素是制约或者推动一个国家进步的根本因素,而另外一个重要因素就是科技,更不必说人的科学素养的重要性。越来越多的国家意识到培养公众科学素养的重要性,我国亦如此。但是目前我国公众科学素养水平却并不乐观,如何提升公众科学素养成为摆在我们面前的难题,解决的对策应该从政策支持、多元途径、科技普及和成人教育入手。 相似文献
4.
John H. Keiser 《College Teaching》2013,61(3):107-109
The skill set associated with lifelong scientific literacy often includes the ability to decode the content and accuracy of scientific research as presented in the media. However, students often find decoding science in the media difficult, due to limited content knowledge and shifting definitions of accuracy. Faculty have developed a variety of approaches to increasing scientific literacy, but these approaches often miss out on valuable opportunities to teach core information literacy skills, including accessing original scientific research. We describe a scaffolded assignment using news reports that allows students enrolled in a science course for non-majors to learn about the nature of the scientific research literature, the connection between the popular press and the scientific literature, and the accuracy of popular media reporting of science while developing important information literacy skills. Our experience suggests that students develop information literacy skills associated with finding scientific articles using media reports, actively engage in trying to decode scientific articles, and are willing to thoughtfully assess the accuracy of science reporting in the news despite minimal content training. Moreover, students anecdotally report that the skills developed here are portable to decoding media reports from other academic fields of research, especially the social sciences. 相似文献
5.
Alexandra J. Macbeth Hannah S. Zurier Erin Atkins Sam R. Nugen Julie M. Goddard 《Journal of Food Science Education》2021,20(1):31-47
Connecting the public to concepts in science, technology, engineering, and mathematics (STEM) is an essential for technological advancement and inspiring future scientists, impacting both the communicator and the audience's understanding of scientific topics. Without proper communication of scientific knowledge, acceptance and implementation of new technologies can be hindered. Additionally, increasing public awareness about current scientific issues through STEM engagement permits more informed policy and consumer choices, especially in the field of food science where many new food technologies are met with initial resistance by the consuming public. Here, we describe an event that introduced topics in food science to the nonexpert public, including K‐8th grade participants and their adult caregivers in an informal learning environment. This program consists of six activities that collectively introduce three areas in food science: food chemistry, food microbiology, and process engineering. Protocols are provided for each activity including a materials list (with the option to scale up or down according to event duration, event space allowances, and number of participants), learning objectives and discussion points that are adaptable to different age groups, event spaces, or budgets. Each activity has a participatory component to ensure both audience member and instructor engagement. A program designed for food science communication empowers young scientific minds to better understand complex scientific topics and could inspire them to envision a possible career in STEM fields, with the additional benefit of providing graduate students an exciting medium through which they may practice their science communication skills, potentially benefiting not only their personal academic and professional skills but also broader societal needs. 相似文献
6.
A genuine interest in science is an important part of scientific literacy, and thus a critical goal for science education. Recent studies, however, have found that school science has not been effective in meeting this goal, an important reason for which is the lack of knowledge about what makes science interesting (or not) to the students. Using instructional episodes as the unit of analysis, this study investigated the effects of learning environment elements (content topic, activity, and learning goal) on student interest in science. The findings indicated that when judging the interestingness of an instructional episode, students focused primarily on the form of activity rather than content topic and learning goal. Activities that were “hands‐on” in nature and allowed for engagement with technology elicited higher interest. This study highlights the need to place more emphasis on the role of activity in constructing interesting learning environments, and in the mean time, suggests that student science interest could be improved by making changes to relatively easy‐to‐manipulate aspects of learning environments, such as those examined in the study. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 515–537, 2012 相似文献
7.
Yang Xiantong Zhang Mengmeng Kong Lingqiang Wang Qiang Hong Jon-Chao 《Journal of Science Education and Technology》2021,30(3):380-393
Game-based learning supported by mobile intelligence technology has promoted the renewal of teaching and learning models. Herein, a model of Question-Observation-Doing-Explanation (QODE) based on smart phones was constructed and applied to science learning during school disruption in COVID-19 pandemic. In this study, from the theoretical perspective of cognitive-affective theory of learning with media, Bandura’s motivation theory and community of inquiry model, self-report measure was used to verify the effect of students’ scientific self-efficacy and cognitive anxiety on science engagement. A total of 357 valid questionnaires were used for structural equation model research. The results indicated that two types of scientific self-efficacy, as indicated by scientific learning ability and scientific learning behavior, were negatively associated with cognitive anxiety. In addition, cognitive anxiety was also negatively correlated to four types of science engagement, as indicated by cognitive engagement, emotional engagement, behavioral engagement, and social engagement through smartphone interactions. These findings provide further evidence for game-based learning promoted by smart phones, contributing to a deeper understanding of the associations between scientific self-efficacy, cognitive anxiety, and science engagement. This study points out that the QODE model is suitable for implementing smart mobile devices to students’ science learning.
相似文献8.
Pey-Yan Liou 《Research in Science & Technological Education》2013,31(2):162-181
Background: In Bangladesh, a common science curriculum caters for all students at the junior secondary level. Since this curriculum is for all students, its aims are both to build a strong foundation in science while still providing students with the opportunities to use science in everyday life – an aim consistent with the notion of scientific literacy.Purpose: This paper reports Bangladeshi science teachers’ perspectives and practices in regard to the promotion of scientific literacy.Sample: Six science teachers representing a range of geographical locations, school types with different class sizes, lengths of teaching experience and educational qualifications.Design and method: This study employed a case study approach. The six teachers and their associated science classes (including students) were considered as six cases. Data were gathered through observing the teachers’ science lessons, interviewing them twice – once before and once after the lesson observation, and interviewing their students in focus groups.Results: This study reveals that participating teachers held a range of perspectives on scientific literacy, including some naïve perspectives. In addition, their perspectives were often not seen to be realised in the classroom as for teachers the emphasis of learning science was more traditional in nature. Many of their teaching practices promoted a culture of academic science that resulted in students’ difficulty in finding connections between the science they study in school and their everyday lives. This research also identified the tension which teachers encountered between their religious values and science values while they were teaching science in a culture with a religious tradition.Conclusions: The professional development practice for science teachers in Bangladesh with its emphasis on developing science content knowledge may limit the scope for promoting the concepts of scientific literacy. Opportunities for developing pedagogic knowledge is also limited and consequently impacts on teachers’ ability to develop the concepts of scientific literacy and learn how to teach for its promotion. 相似文献
9.
The paper provides a systematic theoretical analysis of the main visions of the concept of scientific literacy developed in the last 20 years. It is described as a transition from a transmissive educational vision of scientific literacy (Vision-I) to a transformative vision (Vision-III), with a stronger engagement with social participation and emancipation. Using conceptual tools from sociology and the philosophy of education, the notions of science participation and emancipation associated with transformative Vision-III are critically analyzed in order to draw attention to the growing need to define them with greater accuracy as key conceptual components of scientific literacy. Without such an approach, it will be difficult for science education to materialize and consolidate educational actions that are pedagogically sound, culturally and socially sensitive, and coherent with the social transformation of the diverse conditions of oppression. It is concluded that Vision-III should include both a broad conception of participation, which makes visible the invisible and informal acts performed by diverse groups to build society, and an alternative notion of emancipation committed to liberation.
相似文献10.
我国科技协会2010年公众科学素养调查结果显示,公民的科学素养远远低于美国、加拿大等西方国家。本文通过对中西科学教育的比较分析,发现中西科学教育在科学本质理解、科学教育目标和内容、科学教育方法等方面存在差异。因此,在当前教育全球化这一大背景下,我国科学教育的改革与发展必须要借鉴、吸取西方发达国家的先进理念,以提高我国公众的科学素养为旨归。 相似文献
11.
Robin Millar 《International Journal of Science Education》2013,35(13):1499-1521
Although the term “scientific literacy” has been increasingly used in recent years to characterise the aim of school science education, there is still considerable uncertainty about its meaning and implications for the curriculum. A major national project in England, Twenty First Century Science, is evaluating the feasibility of a more flexible science curriculum structure for 15‐year‐old and 16‐year‐old students, centring around a core course for all students with a scientific literacy emphasis. Over 12,000 students in 78 schools have followed this course since September 2003. The development of a detailed teaching programme is an important means of clarifying the meanings and implications of a “scientific literacy” approach. Questionnaire data from teachers at the end of the first and second years of the project (N = 40 and N = 51) show a strongly positive evaluation of the central features of the course design. Teachers perceive the scientific literacy emphasis as markedly increasing student interest and engagement. Key challenges identified are the language and reasoning demands in looking critically at public accounts of science, and the classroom management of more open discussion about science‐related issues. 相似文献
12.
Worldwide, science education reform movements are stressing the need to promote ‘scientific literacy’ among young people. Increasingly, this is taken to include empowering students to engage critically with science-related news reporting. Despite this requirement now featuring in statutory curricula throughout the UK, there has, to date, been a dearth of research-informed advice to assist science teachers as they identify appropriate instructional objectives in this regard and design relevant learning activities through which these might be achieved. In this study, prominent science communication scholars, science journalists, science educators and media educators were interviewed to determine what knowledge, skills and habits of mind they judged valuable for individuals reading science-related news stories. Teachers of science and of English from nine secondary schools in Northern Ireland addressed the same issue. A striking – and significant – finding of the study was the very substantial number of statements of knowledge, skill and disposition offered by participants that relate to ‘media awareness’, an issue largely overlooked in the science education literature. The school-focused phase of the research suggests that cross-curricular approaches involving teachers of science collaborating with those of English/media education or media studies may best serve to address this important curricular goal. 相似文献
13.
小学科学教育是以培养学生综合科学素养的一门课程,要求小学科学地教学这目的能够使学生运用科学知识去解决实际问题。这为小学科学的教学方式设立了相关的准绳,即科学与现实生活是不可割裂的整体,在教学中要将两者紧密结合,注重培养学生解决实际问题的能力。 相似文献
14.
Distinguishing Polemic From Commentary in Science: Some Guidelines Illustrated With the Case of Sage and Burgio (2017) 
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下载免费PDF全文 Exposure to nonionizing radiation used in wireless communication remains a contentious topic in the public mind—while the overwhelming scientific evidence to date suggests that microwave and radio frequencies used in modern communications are safe, public apprehension remains considerable. A recent article in Child Development has caused concern by alleging a causative connection between nonionizing radiation and a host of conditions, including autism and cancer. This commentary outlines why these claims are devoid of merit, and why they should not have been given a scientific veneer of legitimacy. The commentary also outlines some hallmarks of potentially dubious science, with the hope that authors, reviewers, and editors might be better able to avoid suspect scientific claims. 相似文献
15.
Amanda Woods-McConney Mary C. Oliver Andrew McConney Dorit Maor Renato Schibeci 《Research in Science Education》2013,43(1):233-252
Previous research has underlined the importance of school students’ engagement in science (including students’ attitudes, interests and self beliefs). Engagement in science is important as a correlate of scientific literacy and attainment, and as an educational outcome in its own right. Students positively engaged with science are more likely to pursue science related careers, and to support science related policies and initiatives. This retrospective, secondary analysis of PISA 2006 national data for Aotearoa New Zealand and Australia examines and compares the factors associated with science literacy and with science engagement for indigenous and non-indigenous 15 year old students. Using a four step hierarchical regression model, our secondary analyses showed consistent patterns of influence on engagement in science for both indigenous and non-indigenous students in Aotearoa and Australia. Variations in students’ interest, enjoyment, personal and general valuing, self-efficacy, and self concept in science were most strongly associated with the extent to which students engaged in science activities outside of school. In contrast, socioeconomic status, time spent on science lessons and study, and the character of science teaching experienced by students in their schools were the factors most explanatory of variations in science literacy. Yet, the factors that explained variation in science literacy had only quite weak associations with the suite of variables comprising engagement in science. We discuss the implications of these findings for science educators and researchers interested in enhancing students’ engagement with science, and committed to contributing positively to closing the persistent gap in educational outcomes between indigenous and non-indigenous peoples. 相似文献
16.
Russell Tytler 《International Journal of Science Education》2013,35(11):1403-1418
Accepting that scientific literacy is the primary purpose of science in the compulsory years of schooling leads to the question ‘What does scientific literacy mean in a particular community?’ This paper reports a study designed to provide some insight into that question. Data were gathered through interviews with a sample of community leaders, in the state of Victoria, Australia, about their views of the purposes of school science. The data reveal that, although most of those interviewed had no formal post‐school science education, their life experiences provided them with useful insights into the question raised. The wisdom of such people could make an important contribution during the initial stages of curriculum development in science. As people successful in their own fields, the study participants were lifelong learners. Consequently, their responses suggest that a primary focus of school science must be to provide students with a framework that will enable them to continue learning beyond schooling. This is not just a matter of knowledge or skills, but of feeling comfortable with science. The methods used provide a useful example of how views about education can be gathered from thoughtful, non‐expert community members. In this instance, they allowed a reconceptualization of the purposes of school science. These community leaders argued for an education for ‘science in life’ rather than an education about science. 相似文献
17.
Four themes of scientific literacy have been synthesized to analyze science textbooks for this purpose: (a) science as a body of knowledge, (b) science as a way of investigating, (c) science as a way of thinking, and (d) the interaction among science, technology, and society (STS). The intercoder agreement between two researchers who coded the units of analysis for the four themes was high. The life science textbooks examined in this study seem to stress two aspects of scientific literacy—science as a body of knowledge and science as a way of investigating. These textbooks devote practically no text to science as a way of thinking. Very little text is devoted to the interaction of science, technology, and society. There was at least one chapter in each textbook that addressed the nature of science and its relationship to life science. Most of the analyzed textbooks present the stereotypical steps of the scientific method and do not provide a balance of scientific literacy themes. 相似文献
18.
In the public discussion of genetically modified (GM) food the representations of science as a social good, conducted in the public interest to solve major problems are being subjected to intense scrutiny and questioning. Scientists working in these areas have been seen to struggle for the position of science in society. However few in situ studies of how the debate about science appears in learning situations at the university level have been undertaken. In the present study an introductory course in biotechnology was observed during one semester, lectures and small group supervision concerning GM food were videotaped and student’s reports on the issue were collected. The ethnographic approach to Discourse analysis was conducted by means of a set of carefully selected and representative observations of how a group of students learn to argue and appropriate views held in the Discourse they are enculturated into. While socio-scientific issues (SSIs) are often associated with achieving scientific literacy in terms of “informed decisions” involving “rational thought and Discourse” this study shows that SSI in practice, in the context studied here, is primarily concerned with using scientific language to privilege professional understandings of GMOs and discredit public worries and concerns. Scientific claims were privileged over ethical, economical and political claims which were either made irrelevant or rebutted. The students were seen to appropriate a Discourse model held in the biotechnological community that public opposition towards GMO is due to “insufficient knowledge”. The present study offers insights into biotechnology students’ decision making regarding socio-scientific issues, while also demonstrating the utility of Discourse analysis for understanding learning in this university context. Implications for reflection on the institutional Discourse of science and teaching of controversial issues in science are drawn and the study contributes to the investigation of claims of scientific literacy coupled to SSIs and argumentation 相似文献
19.
AbstractClimate change as an instructional topic in K-12 schools is most frequently taught in the science classroom. However, it is a human issue requiring social as well as technological and scientific solutions. This study analyzes and evaluates a climate change curriculum implemented via an integrated social studies and language arts framework in a middle school classroom. The curriculum reflects collaboration between a private school, a climate education non-profit, and a government agency (NOAA). Following the first year of implementation, student surveys, teacher interviews, and classroom observations comprise the primary tools of data collection and evaluation. Based off these data, students demonstrate high levels of climate literacy, improvements in reading comprehension, and overall engagement with the topic. Teachers report successes and challenges of teaching the curriculum, and administrators offer opportunities for scaling and implementing the curriculum in other schools and contexts (including public schools). Findings from this study are relevant to climate change curriculum developers, researchers, and educators seeking to incorporate an interdisciplinary, socio-scientific approach to climate change education in their work. 相似文献
20.
《Educational Philosophy and Theory》2013,45(5):589-606
Drawing from literature in the social studies of science, this paper historicizes two pivotal concepts in science literacy: the definition of life and the assumption of objectivity. In this paper we suggest that an understanding of the historical, discursive production of scientific knowledge affects the meaning of scientific literacy in at least three ways. First, a discursive study of scientific knowledge has the epistemological consequence of avoiding the selective perception that occurs when facts are abstracted from the historical conditions of their emergence. Second, a discursive approach to scientific knowledge can also be an example of science‐as‐exploration. Third, literacy and discourse studies contribute insights that alter assumptions about pedagogical appropriateness in science education. The paper concludes by suggesting that when science literacy includes the historical production of scientific knowledge, it can thereby extend the possibilities for what can be thought, studied and imagined in the name of science education. 相似文献