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1.
肖小山 《南昌教育学院学报》2012,27(3):111+113
我国新一轮基础教育改革的一个非常重要的目标就是要培养高中生的科学精神,从而保证科学教育能够凌驾于公式与符号之上,提升高中生的科学素养。但是,在现阶段,在高中物理课堂教学中很少融入科学素养的培养,这不利于高中高中生的科学潜力的挖掘。基于此,本文结合具体的课堂教学情况,进行了关于在高中物理课堂教学中融入科学素养的培养的思考,提出了一些方法,希望能够有利于培养高中生的科学素养。 相似文献
2.
When students collaboratively design and build artifacts that require relevant understanding and application of science, many aspects of scientific literacy are developed. Design-based inquiry (DBI) is one such pedagogy that can serve these desired goals of science education well. Focusing on a Projectile Science curriculum previously found to be implemented with satisfactory fidelity, we investigate the many hidden challenges when using DBI with Grade 8 students from one school in Singapore. A case study method was used to analyze video recordings of DBI lessons conducted over 10 weeks, project presentations, and interviews to ascertain the opportunities for developing scientific literacy among participants. One critical factor that hindered learning was task selection by teachers, which emphasized generic scientific process skills over more important cognitive and epistemic learning goals. Teachers and students were also jointly engaged in forms of inquiry that underscored artifact completion over deeper conceptual and epistemic understanding of science. Our research surfaced two other confounding factors that undermined the curriculum; unanticipated teacher effects and the underestimation of the complexity of DBI and of inquiry science in general. Thus, even though motivated or experienced teachers can implement an inquiry science curriculum with good fidelity and enjoy school-wide support, these by themselves will not guarantee deep learning of scientific literacy in DBI. Recommendations are made for navigating the hands- and minds-on aspects of learning science that is an asset as well as inherent danger during DBI teaching. 相似文献
3.
This is a report of the effects of a scientific literacy course on the skills, cognitive ability, and attitude of students in the first year of high school. Specifically, the research examines (1) whether it is possible to teach scientific skills, (2) whether a literacy curriculum affects attitude and cognitive ability, and (3) whether incoming student characteristics affect the development of attitude and cognitive abilities. Two hundred and fifty (126 male and 124 female) ninth grade students were enrolled in a specially designed literacy course which met for 3 hours and 20 minutes each week for 39 weeks. Students were pretested for logical, spatial, verbal, and mathematical ability, as well as for attitude toward self and science, and psychological type. The course was successful in teaching skills. In addition, there were significant increases in spatial, verbal, and quantitative ability. Increases in cognitive ability were predicted by logical ability, measurement skills, and academic self-concept. Attitudes declined as a result of participation in the course. Self concept and mastery were related to cognitive variables and motivation, mastery, and control were related to psychological type. 相似文献
4.
This paper reports on a large scale study that investigated the quality of teaching and learning in science in Australian schools. Its purposes were first, to describe ideal practice in the teaching and learning of school science; second, to describe the nature of teaching and learning of science in Australian schools; and third, to make recommendations to move the actual closer to the ideal.Fundamental to the research was the belief that scientific literacy is a high priority for all citizens, helping them to be interested in, and understand the world around them, to be sceptical and questioning of claims made by others about scientific matters, to be able to identify questions, investigate and draw evidence-based conclusions, and to make informed decisions about the environment and their own health and well-being.Based on national and international reports and research literature, and substantial new data collected from teachers, students and other Australian stakeholders in science education, the ideal picture was described in nine themes relating to the curriculum, teaching and learning strategies, professionalism of teachers and their career path, resources and facilities, and the value of science and science education to the community. The actual picture was one of great variability, but overall, it was bleak. The actual curriculum implemented in most schools differs from the intended curriculum, which is focused on developing scientific literacy and helping students progress towards achieving the stated outcomes. Science in primary schools is generally student-centred and activity-based. When students move to high school, many experience disappointment, because the science they are taught is neither relevant nor engaging and does not connect with their interests and experiences. Disenchantment with science is reflected in the decline in science subjects taken by students in upper secondary school. Many science teachers feel undervalued, under-resourced and overloaded with non-teaching duties.The recommendations developed to improve the status and quality of science education were underlain by five fundamental premises: the purpose of science education is to develop scientific literacy, the focus for change is closing the gap between the actual and ideal, teachers are the key to change, change takes time and resources, and collaboration is essential for quality science education. Preliminary recommendations were prepared and scrutinised by members of a government-appointed Steering Committee for the project, critical friends, and teacher focus groups. Recommendations concerning awareness, teachers, resources, assessment, and national collaboration were developed incorporating feedback from the process described, each including a range of suggested actions for implementation that were feasible in the Australian context. If Commonwealth and State governments choose to act on these recommendations, the gap between the actual picture of science teaching and learning in Australia and the ideal will be significantly reduced. 相似文献
5.
Esther Gnanamalar Sarojini Daniel 《Asia Pacific Journal of Education》2013,33(2):170-182
Science education, since the end of the nineteenth century has been a formal vehicle to ensure the perpetuation of scientific knowledge necessary for general scientific literacy and the creation of a society of scientists. However, since then, beliefs about knowledge and knowing have changed from science being described as being just a pile of chronologically documented facts, through the dynamic growth of scientific knowledge as explained by Kuhn in his Structure of Scientific Revolutions, to the present twenty-first century concept of knowledge societies by which new scientific knowledge is being interpreted. Science education perspectives in relation to teacher education and pedagogies need to be frequently revisited. Indeed, many nations in the Asia-Pacific region are doing just that. How then is the teaching and learning of scientific knowledge in the region? This article will review and compare research related to science achievement, quality of science education and approaches to teaching science in the Asia-Pacific region in particular five nations, in an attempt to answer this question. 相似文献
6.
《Africa Education Review》2013,10(1):109-117
Abstract The formal and informal sciences can be integrated for the enhancement of training, research and teaching in the formal school system. The knowledge and methods of informal science, although regarded as crude, local or native, when embedded with formal science, can be subsequently developed and packaged as teaching innovation for the promotion of scientific knowledge, skill and training. This is the focus of this study where selected informal science experiences were used to teach some science concepts in inquiry-centred Nigerian classrooms. In inquiry-based lessons, teachers only act as facilitators and resources, creating the environment for investigations to take place. In the experiment, students' explorations were centred on informal science activities which were guided to be incorporated into the knowledge structure of formal science classroom experiences. Subjects were Senior Secondary School 11 male and female students taught the topic alkanols; types and preparation including concepts such as fermentation and the brewing process. Informal science activities involving the processing of cassava, grains and other local products were explored by subjects in the experimental group and there was a control group whose subjects were not exposed to informal science activities. Differences in the cognitive and affective learning outcomes of students from the two groups upon data analyses were found to be significant with sex playing a major role. Implications of the findings were highlighted and recommendations were made. 相似文献
7.
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
8.
Teacher education for literacy teaching is often fairly narrow in focus. New approaches are needed that are sociocultural in orientation and take due account of the diversity of language forms, both traditional and contemporary, formal and informal, literary and non‐literary. We believe this need can be met by largely adopting a ‘multiliteracies’ approach as articulated by the New London Group. This research examined the ideas and practices of 10 literacy faculty in a large school of education and 22 first year literacy teachers from the same institution. It found that despite some important advances in a multiliteracies direction, many shortcomings remained. Part of the difficulty was lack of clarity about the nature and purpose of multiliteracies pedagogy. This paper has two main purposes: first, to attempt to clarify the nature and importance of a multiliteracies approach; and second, to report on the successes achieved and challenges encountered in moving in this direction in one school of education. 相似文献
9.
Mahbub Sarkar Deborah Corrigan 《International Journal of Science and Mathematics Education》2014,12(5):1117-1141
In line with a current global trend, junior secondary science education in Bangladesh aims to provide science education for all students to enable them to use their science learning in everyday life. This aim is consistent with the call for scientific literacy, which argues for engaging students with science in everyday life. This paper illustrates Bangladeshi science teachers’ perspectives of scientific literacy along with their views on teaching practices. Participating teachers held a range of perspectives of scientific literacy, including some naive perspectives. The paper also reports that whilst teachers’ verbalised practices in relation to their emphasis on engaging students with science in everyday life follows the emphases as required in teaching for promoting scientific literacy, their assessment practices may not be useful to promote it. The discussion explores the meaning of these findings and provides implications for school science educational practice in Bangladesh. 相似文献
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11.
This paper discusses R.S. Peters’ concept of education, particularly his notion of cognitive perspective and its relevance to school science education. In light of the problems inherent in any attempt to define the notion of scientific literacy, it is argued that the development of cognitive perspective can be considered an important, if not the ultimate, goal of school science education. Such a goal not only provides an alternative way to view the development of scientific literacy, but it also points to a conception of scientific literacy that is neither too narrow nor too broad. In view of recent reform efforts that promote a utilitarian and instrumentalist conception of school science education, Peters’ notion of cognitive perspective can provide food for thought for all those interested in a science education that educates students in science by helping them understand the personal and the wider significance of scientific knowledge. Such a conception of school science education is in line with the view that education and learning should make students change their outlook on the world. In addition, such a conception can enrich the ongoing dialogue on scientific literacy as the primary goal of school science education. 相似文献
12.
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13.
To develop the pedagogic efficiency of informal education in science teaching, promoting a close cooperation between institutions is suggested by Monteiro, Janerine, de Carvalho, and Martins. In their article, they point out effective examples of how teachers and educators work together to develop programs and activities at informal education places such as science museums. Their study explored and discussed the viability and relevancy of school visits to museums and possibilities to enhance the connection between students’ visits in informal contexts and their learning in schools. Given that students learn science by crossing the boundaries of formal and informal learning contexts, it is critical to examine ways of integrated and collaborative approach to develop scientific literacy to help students think, act and communicate as members of problem solving communities. In this forum, we suggest the importance of students’ lifeworld contexts in informal learning places as continuum of Monteiro, Janerine, de Carvalho, and Martins’ discussion on enhancing the effectiveness of informal learning places in science education. 相似文献
14.
在科学教育中,辩论干预作为一种教学策略,在科学素养的培养中具有很大潜力,因而自上世纪80年代末逐渐引起科学教育实践者和研究者的关注。为此,通过依据一定的筛选标准,从关注科学素养培养的核心期刊上选择了31篇文献,从辩论干预在科学教育中应用的过程和结果两个维度,对相关研究进行了元分析。研究发现,尽管辩论干预在科学素养培养的过程和结果两个维度呈现多样性,但其在科学素养培养中的应用模式主要呈现三种形式:浸入式、结构式和社会科学式。此外,还对研究中涉及的其他问题以及未来研究方向等也进行了详细论述。 相似文献
15.
Kathleen Veronica Smith Amanda Berry Cathy Dimitrakopoulos 《International Journal of Science Education》2013,35(1):127-152
The science education literature demonstrates that scientific literacy is generally valued and acknowledged among educators as a desirable student learning outcome. However, what scientific literacy really means in terms of classroom practice and student learning is debatable due to the inherent complexity of the term and varying expectations of what it means for learning outcomes. To date the teacher voice has been noticeably absent from this debate even though the very nature of teacher expertise lies at the heart of the processes which shape students' scientific literacy. The research reported in this paper taps into the expertise of (participating) primary teachers by analyzing the insights and thinking that emerged as they attempted to unravel some of the pedagogical complexities associated with constructing an understanding of scientific literacy in their own classrooms. The research examines the processes and structures within one primary school that were created to provide conditions to allow teachers to explore and build on the range of ideas that presently inform the scientific literacy debate. The research reports these teachers' views and practices that shaped their actions in teaching for scientific literacy. 相似文献
16.
J. Bryan Henderson Anna MacPherson Jonathan Osborne Andrew Wild 《International Journal of Science Education》2013,35(10):1668-1697
This paper argues that science education has overemphasized the importance of construction at the expense of critique. In doing so, it draws on two key premises—Ford's argument that the construction of knowledge requires a dialectic between construction and critique and Mercier and Sperber's theory of argumentative reasoning that critique is essential for epistemic vigilance. Five separate cases are presented which argue that the absence of critique within school science limits the opportunities for students to engage in scientific reasoning making the learning of science less effective. These five arguments incorporate research literature surrounding the nature of science, epistemology, literacy, pedagogy, and motivation. Furthermore, we draw on data collected from cognitive think-aloud interviews to show that students can, with the appropriate prompts, engage in the important epistemic activity of critique. We conclude by examining the implications for the teaching and learning of science. In essence, we argue that the undervaluing of critique within the curriculum and pedagogy of school science results in a failure to develop the analytical faculties which are the valued hall mark of the practicing scientist; a misrepresentation of the nature of science; and, more importantly, a less effective learning experience. Critique, therefore, needs to play a central role in the teaching and learning of science. 相似文献
17.
张素芬 《山西广播电视大学学报》2014,(1):36-40
问卷调查显示当前师范生科学素养特别是生物科学素养水平低下。我们在总结存在问题的基础上提出加强师范生生物科学素养的重要性和迫切性。对探究式教学和生物探究式教学相关理论进行研究,提出生物探究式教学法在培养师范生生物科学素养方面的独特作用。通过比较课堂教学中实施探究式教学法与传统讲授法学生的生物科学素养状况,得出探究式教学法对师范生生物科学素养有显著的影响。 相似文献
18.
医学统计学在科学研究中的重要性不容忽视。为培养本科生的医学科研素养,提升他们科学的统计思维和解决科研实际问题的能力,在医学统计学本科生课程教学中,有必要结合科研训练的课程。文章在分析医学统计学教学现状的基础上,提出了医学统计学结合科研训练教学的新模式,并结合实际教学经验就教学内容、教学模式、考核方式的改革提出了具体的思路和实践方法。希望通过加强对本科生的科研训练,提升他们的科研意识和科研创新能力。 相似文献
19.
The 2015 Programme for International Student Assessment (PISA) has drawn a substantial amount of attention from science educators and educational policymakers because it marked the first time that PISA assessed students' ability to evaluate and design scientific inquiry using computer-based simulations. We undertook a secondary analysis of the PISA 2015 Taiwan dataset of 7,973 students from 214 schools to identify critical issues of student learning and potentially reshape our educational system and policies. Thus, this study sought to identify potential latent clusters of students' scientific literacy performance according to a set of focus variables selected from the PISA student questionnaires. In addition, significant determinants of students' scientific literacy and resiliency were analyzed. Cluster analysis results demonstrated the presence of four clusters of high, medium, low, and inferior scientific literacy/epistemology/affective dispositions. Specifically, students in cluster 1 compared with other clusters showed that the higher the scientific literacy scores are, the more positive epistemic beliefs about science, achievement motivation, enjoyment of science, interests in broad science, science self-efficacy, information and communications technology (ICT) interest, ICT autonomy, more learning time, more teacher supports and teacher-directed instructions are. Regression results indicated that the most robust predictor of students' scientific literacy performance is epistemic beliefs about science, followed by learning time, interest in broad science topics, achievement motivation, inquiry-based science teaching and learning practice, and science self-efficacy. Decision tree model results showed that the descending order of the variables in terms of their importance in differentiating students as high- versus low-performing were epistemic beliefs about science, learning time, self-efficacy, interest in broad science, and scientific inquiry, respectively. A similar decision tree model to determine students as resilient versus non-resilient also was found. Various interpretations of these results are discussed, as are their implications for science education research, science teaching, and science education policy. 相似文献
20.
国家在小学阶段设置科学课的目的,就是从小培养学生的科学意识、科学素养,让学生学会观察、动手操作、学会思考、学会观察、学会合作、亲历实验、收集数据、分析数据得出结论。目前科学课教学却出现教师不知如何教,学生不会学的现象。如何把科学课上出"科学味"、更具实效性,是目前学校亟待解决的问题。笔者就此进行深入研究,采取了很多"科学的方法"进行"科学"教学。 相似文献