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1.
This paper reports the use of a research‐based, web‐delivered, technology‐and‐science education context (the Generative Virtual Classroom) in which student‐teachers can develop their ability to recognize, describe, analyse and theorize learning. Addressing well‐recognized concerns about narrowly conceived, anachronistic and ineffective technology‐and‐science education, this e‐learning environment aims to use advanced technologies for learning, to bring about larger scale improvement in classroom practice than has so far been effected by direct intervention through teacher education. Student‐teachers' short, intensive engagement with the Generative Virtual Classroom during their practice teaching is examined. Findings affirm the worth of this research‐based e‐learning system for teacher education and the power of a biologically based, generative theory to make sense of the learning that occurred.  相似文献   

2.
Much attention has been given to “bridging the gap” between neuroscience and educational practice. In order to gain better understanding of the nature of this gap and of possibilities to enable the linking process, we have taken a boundary perspective on these two fields and the brain‐based learning approach, focusing on boundary‐spanning actors, boundary objects, and boundary work. In 26 semistructured interviews, neuroscientists and education professionals were asked about their perceptions in regard to the gap between science and practice and the role they play in creating, managing, and disrupting this boundary. Neuroscientists and education professionals often hold conflicting views and expectations of both brain‐based learning and of each other. This leads us to argue that there are increased prospects for a neuroscientifically informed learning practice if science and practice work together as equal stakeholders in developing and implementing neuroscience research.  相似文献   

3.
This study investigates staff members’ ideas and assumptions about visitors’ learning at science and technology centres. It also aims to explore in what ways their reasoning intersect with existing theories about learning within the field of science and technology centre research. The results of the study reveal that the staff members allude to learning processes differently by distinguishing organized from non‐organized learning, theoretical learning from practical hands‐on learning, and serious from non‐serious learning. According to most of the staff members, these also conclude with different learning outcomes. Further, a majority of the staff members state that they do not have any scientific knowledge about learning despite the fact that they work with the construction of new exhibitions. When discussing visitors’ learning, the staff members instead refer to personal experiences, professional experiences, professional education, and external references. When it comes to how they reason about the natural scientific content, nearly all express that they use references from the natural science community and researchers’ knowledge. The article moreover discusses in what ways a socio‐cultural approach may be used in order to understand how learning arises when visitors interact with exhibits.  相似文献   

4.
This paper is about a longitudinal study to investigate how student‐teachers developed understanding of some key ecological concepts during a teacher education programme. Another aim was to interpret the student‐teachers' intentions in respect of the programme and to examine how these intentions influenced their learning. A group of students were followed through 2.5 years of a teacher education programme. The whole student group (n = 47–60) answered a questionnaire three times. Their understanding of scientific concepts, relevant to environmental education, was examined. Fourteen students were interviewed three times about a newspaper article discussing the use of surplus heat from a crematorium. The students were also asked about expectations of the teaching programme and of learning experiences from their science courses and from school practice. It is concluded that many of the student‐teachers did not develop the conceptual understanding necessary to be able to engage with the socio‐scientific issue presented to them. It also concludes that many of the student‐teachers approach the learning of science content from the perspective of their personal notions of the tasks of a primary schoolteacher, which is significantly different from the perspectives underpinning the curriculum and the intention of teacher educators. The connection between these two conclusions is discussed.  相似文献   

5.
The purpose of this study was to investigate the beliefs of six experienced high school science teachers about (1) what is successful science learning; (2) what are the purposes of laboratory in science teaching; and (3) how inquiry is implemented in the classroom. An interpretive multiple case study with an ethnographic orientation was used. The teachers' beliefs about successful science learning were substantively linked to their beliefs about laboratory and inquiry implementation. For example, two teachers who believed that successful science learning was deep conceptual understanding, used verification labs primarily to illustrate these concepts and used inquiry as a type of isolated problem‐solving experience. Another teacher who believed that successful science learning was enculturation into scientific practices used inquiry‐based labs extensively to teach the practices of science. Tension in competing beliefs sets and implications for reform are discussed. ? 2004 Wiley Periodicals, Inc. J Res Sci Teach 41: 936‐960, 2004.  相似文献   

6.
20世纪90年代兴起的认知神经科学将脑学习的研究推向了一个新的阶段.认知神经科学的研究发现右脑是大脑中有关语言习得区域的一个至关重要的出发点.我们依据脑学习的研究成果在英语词汇教学中探索激活右脑学习的教学方法--词汇“位置记忆“;词汇语音组块;词汇“拆、并“;词汇表象化教学方法,取得了较好的效果.  相似文献   

7.
This paper addresses the parallel between the changes in students' and teachers' learning advocated by constructivist science educators. It begins with a summary of the epistemology of constructivism and uses a vignette drawn from a set of case studies to explore the impact of a constructivist science in‐service programme on an experienced and formal elementary science teacher. Judged by constructivist standards, the teacher described in the vignette makes very little progress. The irony of applying a constructivist critique to his work, however, is that it fails to treat the teachers' imperfect knowledge of teaching with the same respect as constructivists treat students' imperfect learning of science. The remainder of the paper explores this constructivist paradox, and suggests that‐like students' knowledge of science‐teachers' knowledge of constructivist science teaching is likely to grow through slow and gradual re‐formation of their established understanding of classroom theory and practice.  相似文献   

8.
In the contemporary higher education system there is growing interest in, and debate about, the need to strengthen and sustain the relationships between teaching and research. While there are multiple and varied explanations about these relationships, most acknowledge the importance of designing learning activities that explicitly develop the research–teaching nexus: a methodology known as research‐led teaching. The paper illustrates the integration of a research‐led teaching approach in an online context, using an ocean (climate) model simulation activity in two undergraduate units as a case study. The modelling activity draws on disciplinary research as the underpinning content and stimulus for learning, and incorporates tasks designed to simulate scientific thinking as well as facilitate understanding of abstract concepts about the ocean (and atmosphere) climate system. It also demonstrates a research‐led teaching activity that has been successfully applied in different disciplinary contexts, physical geography (atmospheric science sub‐discipline) and physics.  相似文献   

9.
This paper seeks to explain learning by examining five theories of learning—conceptual analysis, behavioural, constructivist, computational and connectionist. The first two are found wanting and rejected. Piaget's constructivist theory offers a general explanatory framework (assimilation and accommodation) but fails to provide an adequate account of the empirical mechanisms of learning. Two theories from cognitive science offering rival explanations of learning are finally considered; it is argued that the brain is not like a computer so the computational model is rejected in favour of a neurally‐based connectionist model of learning.  相似文献   

10.
This paper examines the use and role of the term ‘hypothesis’ in science teacher education as described by teacher students. Data were collected through focus group interviews conducted at seven occasions with 32 students from six well‐known Swedish universities. The theoretical framework is a sociocultural and pragmatist perspective on language and learning, introducing the notion of pivot terms to operationalise language use as a habit and mediated action. We describe three different customs of using the term ‘hypothesis’ within four cultural institutions that can be said to constitute science teacher education in Sweden. Students were found to habitually use the term hypothesis as meaning a guess about an outcome. This is contrasted to the function of this term in scientific research as a tentative explanation. We also found differences in how this term was used between the pure science courses given by the science departments of universities and science education courses taken only by teacher students. Findings also included further support for school students hypothesis fear reported in an earlier study. It is discussed how these findings can obstruct learning and teaching about the nature of scientific inquiry. Constructivist theories of learning are suggested as a possible origin of these problems. The findings are also related to curricular reform and development.  相似文献   

11.
This paper traces the development over several years of an initiative involving student journals that was introduced into a tertiary science education course for pre‐service teachers to promote enhanced learning of how to teach science. Very soon after introducing the journals into course work the lecturer began engaging in ‘unplanned’ informal reflection (reflection‐in‐action and reflection‐on‐action) when she witnessed the shallow, often trivial nature of her students’ reflective writing and the lack of pedagogical insights they were gaining from the exercise. Motivated by her own ongoing scholarship the lecturer introduced purposeful coaching of reflective skills into her pedagogy to scaffold students’ learning and promote more useful reflection. The impact of these interventions on students’ reflective capabilities and learning were investigated using a formal action research cycle. Findings indicate that student teachers’ reflective skills improved and resulted in deeper and more focused thinking about how to teach science for learning.  相似文献   

12.
The promise of educational neuroscience lies in its potential to uncover mechanistic insights into the science of learning. However, to realize that promise, the field must overcome a fundamental difference between the constituent disciplines: neuroscience is primarily concerned with understanding how the brain works; whereas education attempts to change the brain regardless of its workings. Learning is one domain where these orientations align: it is a deep feature of nervous systems and a target outcome of education. This article proposes coupling training studies with neuroimaging to assess the impact of real‐world learning on brain activity patterns, and simultaneously ask fundamental questions about the causal role of specific patterns of brain activity in academic skill acquisition. Finally, planning and implementing these studies requires multiple forms of expertise and collaborating across disciplines, which will contribute to a more cohesive educational neuroscience research community.  相似文献   

13.
The Ontario Science Centre is a popular alternative learning environment for science and technology. Using semi-structured interviews, the research underpinning this paper investigates the experiences and effects of working as a Host or exhibit interpreter at the Science Centre. It examines how the Hosts benefit from the program in terms of their knowledge about and attitudes toward science and technology. What is distinctive about learning in this context, and its implications for science and technology education in schools, are discussed. The dominant aspects of learning for the respondents tended to be inspirational and attitudinal, as well as cognitive. The comments of the respondents indicate that in order to encourage learning in science and technology, science education needs to focus on more than a narrow concern with curriculum content.  相似文献   

14.
In this article, the role of young children's emotional practices in science learning is described and analyzed. From the standpoint of performativity theory and social‐constructionist theory of emotion, it is argued that emotion is performative and the expression of emotion in the classroom has its basis in social relationships. Arising from these relationships is the emotional culture of the classroom that plays a key role in the development of classroom emotional rules as well as the legitimation of science knowledge. These relationships are reflected in two levels of classroom dialogue: talking about and doing science, and expressing emotions about science and its learning. The dynamics of the negotiations of classroom emotional rules and science knowledge legitimation may dispose students to act positively or negatively toward science learning. This analysis is illustrated in the experiences of a teacher and her students during a 3‐year ethnographic study of emotions in science teaching and learning. This research suggests the importance of the interrelationship between emotions and science learning and the notion that emotional practices can be powerful in nurturing effective and exciting science learning environments. © 2004 Wiley Periodicals, Inc. J Res Sci Teach 41: 693–719, 2004  相似文献   

15.
This study examined prospective elementary teachers' learning about scientific inquiry in the context of an innovative life science course. Research questions included: (1) What do prospective elementary teachers learn about scientific inquiry within the context of the course? and (2) In what ways do their experiences engaging in science investigations and teaching inquiry‐oriented science influence prospective elementary teachers' understanding of science and science learning and teaching? Eleven prospective elementary teachers participated in this qualitative, multi‐participant case study. Constant comparative analysis strategies attempted to build abstractions and explanations across participants around the constructs of the study. Findings suggest that engaging in scientific inquiry supported the development more appropriate understandings of science and scientific inquiry, and that prospective teachers became more accepting of approaches to teaching science that encourage children's questions about science phenomena. Implications include careful consideration of learning experiences crafted for prospective elementary teachers to support the development of robust subject matter knowledge.  相似文献   

16.
Enhanced capabilities of modern smartphones offer the potential to design tools that support new forms of teaching and learning. Increased access to mobile‐networked environments and geospatial systems provide opportunities for developing new educational experiences that support a geospatial approach to science, fostering new ways of thinking about science. However, designing effective innovative educational mobile applications remains a challenge. Applications need to be accessible to teachers that are not tech‐savvy as well as those that are, foster active learning pedagogies, enable flexible and creative use, as well as fit within the curriculum. This paper describes a smartphone application developed together with pre‐service science teachers, designed to be customisable by teachers while supporting a geospatial approach to science education. The design process and trial illustrate application use, how it supports a geospatial approach to science education and raises issues around mobile technologies, teacher pedagogies and adoption.  相似文献   

17.
In many developed countries of the world, pupil attitudes to school science decline progressively across the age range of secondary schooling while fewer students are choosing to study science at higher levels and as a career. Responses to these developments have included proposals to reform the curriculum, pedagogy, and the nature of pupil discussion in science lessons. We support such changes but argue that far greater use needs to be made of out‐of‐school sites in the teaching of science. Such usage will result in a school science education that is more valid and more motivating. We present an “evolutionary model” of science teaching that looks at where learning and teaching take place, and draws together thinking about the history of science and developments in the nature of learning over the past 100 years or so. Our contention is that laboratory‐based school science teaching needs to be complemented by out‐of‐school science learning that draws on the actual world (e.g., through fieldtrips), the presented world (e.g., in science centres, botanic gardens, zoos and science museums), and the virtual worlds that are increasingly available through information technologies.  相似文献   

18.
The premise that underlies the preservice‐teacher‐education programme at Monash University is the need to focus on the nature of learning (for example, Gunstone et al., 1993). One approach currently being used to enhance this process is the use of portfolios. The portfolio is an open‐ended task designed to explore teaching from many different vantage points. It is organised as a dynamic assessment task through which the student teachers work on developing their understanding of what it means to be a science teacher, and the teaching portfolio itself is a mixture of artefacts designed to help student teachers demonstrate this to others. This paper reports on the effectiveness and value of portfolios in helping preservice teachers learn about learning and teaching.  相似文献   

19.
Although there is substantial research on the effect of emotions on educational outcomes in the classroom, relatively little is known about how emotion affects learning in informal science contexts. We examined the role of emotion in the context of an informal science learning experience by utilizing a path model to investigate the relationships among emotional arousal, valence, attention, environmental values and learning outcomes. Sixty undergraduate and graduate students participated in one of two treatments consisting of watching an exciting or neutral nature documentary video, reading an associated narrative, and taking a post‐test. Our findings suggested that higher emotional arousal, less pleasant feelings about the content, and stronger environmental values led to greater short‐term learning outcomes. We discuss our findings in relation to current understandings of emotion and learning in informal science education settings.  相似文献   

20.
This report provides an overview of neuroscience research that is applicable for science educators. It first offers a brief analysis of empirical studies in educational neuroscience literature, followed by six science concept learning constructs based on the whole brain theory: gaining an understanding of brain function; pattern recognition and consciousness; mind maps, mnemonics and other learning devices; concrete multisensory experience; higher-order creative reasoning via a multimedia-infused environment and positive emotion in educational settings. It is vital to the future of results-based education that discoveries regarding the cognitive learning process are taken into consideration when designing instruction. This research offers science educators neuroscience-backed information as a foundation to develop results-oriented curricula and teaching methods. Future research could further extend an empirically driven education system.  相似文献   

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