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1.
This paper presents an analysis of how affordances of ICT‐rich environments identified from a recent review of the research literature can support students in learning science in schools within a proposed framework for pedagogical practice in science education. Furthermore other pedagogical and curriculum innovations in science education (promoting cognitive change, formative assessment and lifelong learning) are examined to see how they may be supported and enhanced by affordances of ICT‐rich environments. The affordances that I have identified support learning through four main effects: promoting cognitive acceleration; enabling a wider range of experience so that students can relate science to their own and other real‐world experiences; increasing students' self‐management; and facilitating data collection and presentation. ICT‐rich environments already provide a range of affordances that have been shown to enable learning of science but integrating these affordances with other pedagogical innovations provides even greater potential for enhancement of students' learning.  相似文献   

2.
This paper describes the multiple school and school science experiences of eight Latina students of Central American descent in a tracked, urbanized, middle school setting. Framed by a sociocultural perspective, I describe how eight seventh and eighth grade Latino girls interacted with school science. Implications for the concept “science for all” are discussed.  相似文献   

3.

Adopting a sociocultural perspective, we construct a case study exploring how a middle school bilingual science teacher reflected and acted when engaged in dialogue, co-teaching, and a newly designed unit on plate tectonics. Sources of data include video of classroom interaction and audio recordings of daily debriefs between the bilingual science teacher and second author. Dialogic reflections between these individuals reveal how the new curriculum, the dialogue, and co-teaching with the second author mediated the teacher’s emerging abilities to think and act in different ways at that sociohistorical moment in time. Based on these findings, we highly encourage professional development experiences to include ongoing dialogic reflection and co-teaching to “shake” teachers’ views and practice. These initial connections can indicate inroads into helping teachers broaden understanding of bilingual science education.

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4.
To examine how school characteristics are tied to science and engineering views and aspirations of students who are underrepresented in science and engineering fields, this mixed‐methods study explores relationships between aspects of students' science identities, and the representation of women among high school science teachers. Quantitative analyses tested the hypothesis that percent female faculty would have a positive effect on girls' science interests, and perceptions in particular, given the potentially greater availability of women role models. Findings indicate that percent female science faculty does not have an effect on a range of science measures for both male and female students, including the ways in which they understand scientific practice, their science self‐concept, and their interest in science‐related college majors. As qualitative data demonstrate, this could reflect practical constraints at schools where female faculty are concentrated and narrow perceptions of science teachers and “real” science. © 2007 Wiley Periodicals, Inc. J Res Sci Teach 44: 980–1009, 2007  相似文献   

5.
Summary Science teachers naturally rely on their university science experiences as a foundation for teaching middle school science. This foundation consists of knowledge far too complex for the middle level students to comprehend. In order for middle school science teachers to utilize their university science training they must search for ways to adapt their college experiences into appropriate middle school learning experience. The criteria set forth above provide broad-based guidelines for translating university science laboratory experiences into middle school activities. These guidelines are used by preservice teachers in our project as they identify, test, and organize a resource file of hands-on inquiry activities for use in their first year classrooms. It is anticipated that this file will provide a basis for future curriculum development as the teacher becomes more comfortable and more experienced in teaching hands-on science. The presentation of these guidelines is not meant to preclude any other criteria or considerations which a teacher or science department deems important. This is merely one example of how teachers may proceed to utilize their advanced science training as a basis for teaching middle school science.  相似文献   

6.
A challenge facing many schools, especially those in urban settings that serve culturally and linguistically diverse populations, is a disconnection between schools and students' home communities, which can have both cognitive and affective implications for students. In this article we explore a form of “connected science,” in which real‐world problems and school‐community partnerships are used as contextual scaffolds for bridging students' community‐based knowledge and school‐based knowledge, as a way to provide all students opportunities for meaningful and intellectually challenging science learning. The potential of these scaffolds for connected science is examined through a case study in which a team of fifth‐grade teachers used the student‐identified problem of pollution along a nearby river as an interdisciplinary anchor for teaching science, math, language arts, and civics. Our analysis makes visible how diverse forms of knowledge were able to support project activities, examines the consequences for student learning, and identifies the features of real‐world problems and school–community partnerships that created these bridging opportunities. © 2001 John Wiley & Sons, Inc. J Res Sci Teach 38: 878–898, 2001  相似文献   

7.
Changes in society and in science and technology have forced a rethinking of what is “basic” in science education. A perceived disjuncture between school science and the realities of a scientifically and technologically oriented society has resulted in proposals for new directions in science teaching. It appears that science education is about to undergo another paradigm shift. One particularly visible movement, the “Science-Technology-Society” (STS) movement, exemplifies how such directional shifts tend to occur within the field of science education. This article critically examines the program and professional development process that has characterized past and current science curriculum reform effort in an attempt to illustrate fundamental educational reform problems. The need for new directions in science education is uncontested here. The issue is the problematic nature of the reform process itself. The article contends that new methods of reform must be researched— methods that directly involve practitioners in critical reflection, participatory research, and science curriculum development.  相似文献   

8.
Natural History Museums, Science Centers, Zoos, and Aquaria contribute considerably to out-of-school science experiences for visitors of all ages and characteristics. With birth rates and school age populations declining, it is likely that people will be looking to these settings for rest, recreation, stimulation, and learning. Science educators can play a leadership role in research, development, and in utilization of these settings to achieve learning and motivational objectives which support, supplement, and extend school science learning. But what is the current “state of the art” in this area? This article reviews relevant past studies, proposes a taxonomy of exhibits in museum settings, and focuses attention on factors which should be considered when studying learning in these settings. In addition, it presents some potentially productive methods of conceptualizing research, and suggests possible future lines of research for the science educator.  相似文献   

9.
One consequence of the advancing globalization and technological dependence of society is that people outside professional science are finding that issues of concern to them have a science dimension. I consider how school science education can support engagement with scientific information. I contend that teaching about the epistemology of science is central to achieving this educational goal. I identify epistemic learning aims appropriate to school science education. These are derived from a survey of case studies of how individuals interact with science outside formal education. I consider different ways in which these learning aims might be achieved in schools. Teaching approaches based on modifications of existing practice are identified. Addressing the full range of epistemic learning aims is likely to require teaching approaches rarely used in current science teaching.  相似文献   

10.
The quality of science education is a pervasive concern in educational improvement efforts. This article examines two aspects of science education that have been identified as being of concern: Is the material presented in science classrooms representative of science “as it really is” and, secondly, what is the bearing of notions of “children's science” on curriculum reform? A review of the literature in both areas shows that educational theory has, so far, had little effect on classroom practice. An attempt is made to synthesize contemporary views on the tentative nature of science with a generative model of learning in science in order to establish a common epistemological base which could be used as a template for curriculum reform efforts.  相似文献   

11.
This article reports an ethnographic study of a molecular biology research laboratory, “Sally's Lab.” By studying the daily practices of the lab members, and interpreting these observations through an anthropological lens grounded in practice theory, I portray the social and cultural construction of a scientific community. Findings include an examination of how good science practice was operationalized, status in the lab was constructed, members gained or lost interest in continuing on in careers in research science, and individual members conformed to and resisted localized norms of scientific practice. These issues have direct relevance to our work as science educators, in terms of how we present science practice to our students. For example, when K–16 science students engage in activities based on authentic science practice, upon whose experiences are these simulations based? The current study shows that there is not just one acceptable way to do science, nor one set of experiences that pertain to all members within a given community of science practice. Likewise, there should not be just one way that science is presented in school, nor one set of experiences we expect all our students to take from our classes. © 2001 John Wiley & Sons, Inc. J Res Sci Teach 38: 387–407, 2001  相似文献   

12.
Visits to museums and science centres are a part of most school science programs- but are they really learning experiences? By accompanying classes on visits and talking with the teachers and students during and after these visits, information has been gathered on the ways in which school groups currently use visits to two informal science learning settings in Sydney- a science education centre and a large museum. Comparison of the teacher and student behaviours on these visits with current views on good teaching/learning practice, reveals considerable anomalies. At the same time, reported studies of museum visitors suggest that family groups use museums for learning in ways which are quite different from the way most school groups do. Can these apparent mismatches be translated into a pathway for developing new approaches to learning in informal settings?  相似文献   

13.
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14.
This essay interrogates the phenomenon and the implications of being female in school science through girls' and young women's stories interwoven with my own narrative as a woman teacher/researcher in science education. The intent is to raise awareness of issues related to being female in conventional science teaching, and to suggest some alternative perspectives and approaches for action and reflection. I discuss several directions within my teaching which announce my own interpretation of bell hook's “engaged pedagogy,” which emphasizes a commitment to self-actualization and well-being for both teacher and student. My choice to integrate disparate writing styles (conversational and scholarly) was a deliberate effort to resonate issues between practice and theory and interrupt this separation. J Res Sci Teach 35: 463–471, 1998.  相似文献   

15.
This article is a case study of a second-year middle school science teacher's beliefs about science and science teaching and how these beliefs influenced—or failed to influence—classroom instruction. It illustrates how beginning teachers struggle to reconcile (a) conflicting beliefs about what is desirable, and (b) conflicts between what they believe is desirable and what is possible within the constraints of their preparation and the institutions in which they work. This teacher, for example, struggled to reconcile his view of science as a creative endeavor with his belief that students need to be provided with a high degree of structure in order to learn within the context of formal schooling. He also had difficulty resolving the conflict between the informal (“messing about”) type of science learning that he believed was desirable and the personal and institutional constraints he faced in the classroom.  相似文献   

16.
Teachers play a critical role in successfully implementing science education reforms in the United States to provide high-quality science learning opportunities to all students. However, the differentiated ways in which teachers make decisions about their science teaching are not well understood. This study takes a person-centered approach by applying latent profile analysis to examine how cognitive (pedagogical content knowledge) and motivational (instructional goal orientations, self-efficacy beliefs, and reform values) characteristics combine to form science teacher profiles in middle school. Predictors of profile membership (bachelor's degree, school %FRL) and both teacher (science instructional practices) and student (science achievement, engagement, and self-efficacy) outcomes related to the teacher profiles were also examined. Five science teacher profiles were identified (severely discouraged but reform oriented, discouraged but reform oriented, conventional, confident and mastery oriented, and confident with multiple goal approaches) that represented unique configurations of cognitive and motivation characteristics. Additionally, findings showed that the teacher profiles were significantly related to three dimensions of science instructional practice including communication, discourse, and reasoning. Finally, the teacher profiles were significantly related to student science achievement and motivational outcomes. Implications for differentiated approaches to teacher professional learning and supports for science instruction are discussed.  相似文献   

17.
When evaluating equity, researchers often look at the “achievement gap.” Privileging knowledge and skills as primary outcomes of science education misses other, more subtle, but critical, outcomes indexing inequitable science education. In this comparative ethnography, we examined what it meant to “be scientific” in two fourth‐grade classes taught by teachers similarly committed to reform‐based science (RBS) practices in the service of equity. In both classrooms, students developed similar levels of scientific understanding and expressed positive attitudes about learning science. However, in one classroom, a group of African American and Latina girls expressed outright disaffiliation with promoted meanings of “smart science person” (“They are the science people. We aren't like them”), despite the fact that most of them knew the science equally well or, in one case, better than, their classmates. To make sense of these findings, we examine the normative practice of “sharing scientific ideas” in each classroom, a comparison that provided a robust account of the differently accessible meanings of scientific knowledge, scientific investigation, and scientific person in each setting. The findings illustrate that research with equity aims demands attention to culture (everyday classroom practices that promote particular meanings of “science”) and normative identities (culturally produced meanings of “science person” and the accessibility of those meanings). The study: (1) encourages researchers to question taken‐for‐granted assumptions and complexities of RBS and (2) demonstrates to practitioners that enacting what might look like RBS and producing students who know and can do science are but pieces of what it takes to achieve equitable science education. © 2011 Wiley Periodicals, Inc., Inc. J Res Sci Teach 48: 459–485, 2011  相似文献   

18.
Abstract

This article focuses on the role the Dutch school for children with “learning and behavioural problems” (LOM) has played in knowledge production about learning disabilities and in the development of academic study of special education between 1949 and 1985. LOM-schooling grew rapidly during these years and attracted relatively many experts. In the selection and admission of LOM-children they had to be distinguished from normal, mentally deficient, and “very difficult” children. Around 1970 experts shifted their focus from the distinction between LOM-children and the latter to the difference between LOM- and mildly mentally retarded children, which turned out to be too small in the end to justify a separate school. The LOM-school’s culture of knowledge production has stimulated both testing and the study of learning problems and their treatment. It functioned as a laboratory for the development of therapeutic treatment for learning disabilities. In particular, the systematic reflection on the practice of remedial teaching was relevant in the development of child science.  相似文献   

19.
Reflection has been considered a key aspect that should be included in teacher‐education programmes. There have also been recent calls to base teacher education on constructivist principles of learning. In this study, a reflective‐school‐experience component was integrated into a curriculum subject, using constructivist learning theory as a guide. It shows how these two constructs may be brought together in practice. The learning theory used is explained, and relationships to teaching are explored. Teacher interventions derived from the learning theory provided guidelines for the placement and operation of the school experience, and for encouraging reflection about both the school experience and classwork. An evaluation of the subject was conducted using a variety of data. Selected findings are discussed, and the success of the subject in influencing cognitive and affective outcomes are explored. The role of the school experience and indications of the occurrence of reflection by students are also examined.  相似文献   

20.
This forum article contributes to the understanding of how science teachers’ identity is related to their worldviews, cultural values and educational philosophies, and to eco-transformation of science education. Special focus is put on ‘reform-minded’ science teachers. The starting point is the paper Science education reform in Confucian learning cultures: teachers’ perspectives on policy and practice in Taiwan by Ying-Syuan Huang and Anila Asghar. It highlights several factors that can explain the difficulties of implementing “new pedagogy” in science education. One important factor is Confucian values and traditions, which seem to both hinder and support the science teachers’ implementation of inquiry-based and learner-centered approaches. In this article Confucianism is compared with other learning cultures and also discussed in relation to different worldviews and educational philosophies in science education. Just like for the central/north European educational tradition called Bildung, there are various interpretations of Confucianism. However, both have subcultures (e.g. reflexive Bildung and Neo-Confucianism) with similarities that are highlighted in this article. If an “old pedagogy” in science education is related to essentialism, rationalist-objectivist focus, and a hierarchical configuration, the so called “new pedagogy” is often related to progressivism, modernism, utilitarianism, and a professional configuration. Reflexive Bildung problematizes the values associated with such a “new pedagogy” and can be described with labels such as post-positivism, reconstructionism and problematizing/critical configurations. Different educational approaches in science education, and corresponding eco-identities, are commented on in relation to transformation of educational practice.  相似文献   

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