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1.
Young children, ages 5–6 years, develop first beliefs about science and themselves as science learners, and these beliefs are considered important precursors of children's future motivation to pursue science. Yet, due to a lack of adequate measures, little is known about young children's motivational beliefs about learning science. The present two‐part study explores the motivational beliefs of young children using a new measure—the Young Children's Science Motivation (Y‐CSM) scale. Initial measurement development involved a thorough literature review of existing measures, and an extensive piloting phase until a final instrument was reached. To establish scale reliability, measurement invariance as well construct and criterion validity, the final instrument was administered to a new sample of 277 young children, age 5–6 years, in northern Germany. Results reveal that children's motivational beliefs can be empirically differentiated into their self‐confidence and enjoyment in science at this young age. Older children were more motivated in science, but no significant gender differences were found. Importantly, children in preschools with a science focus reported significantly higher science motivation. This finding stresses the importance of early science education for the development of children's motivational beliefs science.  相似文献   

2.
近年来,国家出台了一系列的贫困生资助政策,解决了贫困生求学的困难,但也出现了一些贫困生教育管理的问题。本文提出了科学评定、思想引导、激励教育、诚信教育、心理援助和人文关怀六个有效策略,为加强高校贫困生的教育管理提供了新鲜思路和参考。  相似文献   

3.
How a Deweyan science education further enables ethics education   总被引:1,自引:0,他引:1  
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   

4.
Environmental education is often thought of as the branch of science education whose field of inquiry encompasses those necessarily value-laden issues of human intervention in the natural world. While this perception would be contested by those who see the origins of environmental education lying in the sociopolitical arena of community concerns about exploitation of the environment, it is true to say that environmental education and science education are commonly associated in ways that other disciplines are not, and thus it is perhaps to be expected that the dominant paradigm of evaluation in environmental education should be applied science in character. This article raises the issue of the appropriateness of applied science approaches to evaluation in environmental education. The article begins with a critique of applied science approaches to evaluation, drawing arguments from the broader field of educational evaluation. The relationship between characteristics of applied science approaches to evaluation on the one hand and the special characteristics of environmental education on the other is then explored, and the article concludes with an argument for a deliberative choice of research paradigm in environmental education.  相似文献   

5.
Most people visit a science center in order to satisfy specific leisure‐related needs; needs which may or may not actually include science learning. Falk proposed that an individual's identity‐related motivations provide a useful lens through which to understand adult free‐choice science learning in leisure settings. Over a 3‐year period the authors collected in‐depth data on a random sample of visitors to a large recently opened, hands‐on, interactive science center; collecting information on why people visited, what they did within the science center, what they knew about the subject presented upon entering and exiting, and what each individual's long‐term self‐perceptions of their own learning was. Presented is a qualitative analysis of visitor interviews collected roughly 2 years after the initial visit. Although there was evidence for a range of science learning outcomes, outcomes did appear to be strongly influenced by visitor's entering identity‐related motivations. However, the data also suggested that not only were the motivational goals of a science center visit important in determining outcomes, so too were the criteria by which visitors judged satisfaction of those goals; in particular whether goal satisfaction required external or merely internal validation. The implications for future informal science education research and practice are discussed. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47:194–212, 2010  相似文献   

6.
School physical education (PE) aims to develop students’ knowledge and skills for lifelong participation in physical activity (PA). Unfortunately, many PE teachers report that motivating students is a significant challenge. The purpose of this study was to explore PE teacher perceptions about the effectiveness and acceptability of three self-determination theory-based motivational strategies on students’ PA, motivation, and learning during PE lessons. Thirteen PE teachers from five schools in Western Sydney, Australia, participated in this study. We carried out semi-structured post-lesson interviews with PE teachers to gather information about the perceived effectiveness and acceptability of the three intervention strategies and whether these were sustainable teaching methods: (1) explaining relevance; (2) providing choice; and (3) complete free choice. Analysis of interview data revealed that teachers believed each strategy successfully enhanced student PA, enjoyment, motivation, and student learning. The findings also showed that our motivational teaching strategies were acceptable when embedded within certain PE contexts. Overall, the results have implications for future pre-service and in-service PE teaching practice.  相似文献   

7.
Conclusion This study points to the fact that it would be practical to compare and assess the instructional strategies of exemplary and novice elementary science teachers using a set of criteria derived from published teacher effectiveness studies. According to this study there are differences ranging from significant to null between the instructional behaviors of exemplary and novice teachers, and it indicates that it may not be appropriate to rely entirely upon the findings of individual teacher effectiveness studies to prepare effective preservice teachers. Science teacher educators need to focus more directly on the differences in instructional strategies between the exemplary and novice teachers and inquire further into determining the causes for the differences. Hurd (1982) reported that about half of the elementary teachers studied believe that their preservice education failed to prepare them to teach science in real classrooms. If what separates exemplary teachers from novices can be clearly identified, then the science teacher educator’s task of preparing effective preservice teachers will be an easier one. Then it would be also possible to develop effective preservice science teacher education programs more congruent with exemplary science teaching practices and augment the existing science teacher education knowledge base through further research.  相似文献   

8.
Abstract

This paper begins by establishing the existence of a debate in the broader educational community about the nature, meaning and significance of educational research, and its recognition that different approaches to educational research do not simply represent different strategies for data collection but rest on and express different ideologies that implicate different political attitudes among teachers, students, subject‐matters,schools, support agencies and researchers themselves. Evidence can be seen that this debate is beginning to appear in the science education literature and it is believed that the arguments can be extended.

It is argued that research in science education and environmental education needs to consider methodology in the political terms of ideology, rather than simply in the technical terms of method and technique. Some of the recent thinking about the politics of method in both science education and environmental education, is then considered briefly and a number of meta‐research questions are proffered that might focus further attention on the political theory of research in these two fields.  相似文献   

9.
The number of student enrolments in computer-related courses remains a serious concern worldwide with far reaching consequences. This paper reports on an extensive survey about career choice and associated motivational factors amongst new students, only some of whom intend to major in computer-related courses, at two South African universities. The data were analyzed using some components of Social Cognitive Career Theory, namely external influences, self-efficacy beliefs and outcome expectations. The research suggests the need for new strategies for marketing computer-related courses and the avenues through which they are marketed. This can to some extent be achieved by studying strategies used by other (non-computer) university courses, and their professional bodies. However, there are also distinct differences, related to self-efficacy and career outcomes, between the computer majors and the ‘other’ group and these need to be explored further in order to find strategies that work well for this group. It is not entirely clear what the underlying reasons are for these differences but it is noteworthy that the perceived importance of “Interest in the career field” when choosing a career remains very high for both groups of students.  相似文献   

10.
The paper presents results from a longitudinal study of students’ decisions to enrol on a higher education science programme and their experiences of it. The aim is to give insights into students’ transition process and negotiation of identity. This is done by following a cohort of 38 students in a series of qualitative interviews during a 3-year period starting as they were about to finish upper secondary school. We find that the students’ choice of study is an ongoing process of meaning-making, which continues when the students enter higher education and continuously work on their identities to gain a sense of belonging to their science or engineering programme. The use of a narrative methodology provides understanding of choice of study as involving changes in future perspectives and in the interpretation of past experiences. Further, we gain access into how this meaning-making process over time reflects the students’ negotiations in terms of belonging to higher education and their coping strategies when their expectations of their new programme interact with their first-year experiences.  相似文献   

11.
In this paper I examine the history of the integration of mathematics education into the Science Education Centre, which had been established by physicist, John de Laeter, within the School of Science and Engineering at Curtin University in Perth, Australia. De Laeter’s vision for science education was that teachers should have access to professional education that allowed them to extend their discipline and pedagogical knowledge using strategies that brought together theory and practice in ways that were meaningful for teachers. This model was expanded when mathematics education was also included, paving the way also for technology education. I present the history of this integration laying out the themes that are important for the continued educational effectiveness of the Science and Mathematics Education Centre (SMEC) and the role that mathematics education has played in this process. As the title suggests, this article focuses on the activities of the group of mathematics educators who have worked within the Science and Mathematics Education Centre of Curtin University since it was established 30 or so years ago and who have contributed to its reputation. The two streams operated then and now more-or-less independently in matters of student thesis topic choice but offered students opportunities for interaction that might not have been available if the “M” had not been incorporated into the Science Education Centre (SEC). This article’s focus is on the mathematics educators who contributed to the Centre’s success and reputation, highlighting the synergistic relationship between mathematics and science that helped to make SMEC a leading center for mathematics and science education.  相似文献   

12.
We can distinguish the claims of cognitive constructivism from those of metaphysical constructivism, which is almost entirely irrelevant to science education. Cognitive constructivism has strong empirical support and indicates important directions for changing science instruction. It implies that teachers need to be cognizant of representational, motivational and epistemic dimensions which can restrict or promote student learning. The resulting set of tasks for a science teacher are considerably larger and more complex than on the older more traditional conception, but the resources of cognitive sciences and the history of science can provide important parts of the teachers intellectual tool kit. A critical part of this conception of science education is that students must develop the skills to participate in epistemic interchanges. They must be provided opportunities and materials to develop those skills and the classroom community must have the appropriate features of an objective epistemic community.  相似文献   

13.
The rhetoric about science, technology, engineering, and mathematics (STEM) education in urban schools reflects a desire to imagine a new city that is poised to compete in a STEM-centered future. Therefore, STEM has been positioned as a critical part of urban education reform efforts. In various US cities, schools labeled as failing are being repurposed as selective STEM-intensive academies to build a STEM education infrastructure. In Memphis, Tennessee, this process makes visible issues with educational inequity, exacerbated by school choice and gentrification processes. In this article, I use whiteness as property, a tenet of critical race theory, to examine STEM education in Memphis as a case of urban STEM-based education reform in the United States. I describe claiming STEM education as property as a 2-phase process in which middle-class Whites in urban areas participate to secure STEM education by repurposing failed Black schools and to maintain it by institutionalizing selective admissions strategies.  相似文献   

14.
This paper proposes a design framework to support science education through blended learning, based on a participatory and interactive approach supported by ICT-based tools, called Science Learning Activities Model (SLAM). The development of this design framework started as a response to complex changes in society and education (e.g. high turnover rate of knowledge, changing labour market), which require a more creative response of learners to the world problems that surround them. Many of these challenges are related to science and it would be expected that students are attracted to science, however the contrary is the case. One of the origins of this disinterest can be found in the way science is taught. Therefore, after reviewing the relevant literature we propose the SLAM framework as a tool to aid the design of science courses with high motivational impact on students. The framework is concerned with the assumption that science learning activities should be applicable and relevant to contemporary life and transferable to ‘real-world’ situations. The design framework proposes three design dimensions: context, technology and pedagogy, and aims at integrating learning in formal and informal contexts through blended learning scenarios by using today’s flexible, interactive and immersive technologies (e.g. mobile, augmented reality, virtual reality).  相似文献   

15.
Conclusions This group of preservice teachers entered their education programme with conceptions about teaching primary science which are biased towards science content and preparation for secondary science. However, although process skills are not mentioned specifically by the vast majority of students, about a third of the intake considered “problem solving/discovering” things to be a purpose for teaching primary science. There would appear to be a ‘base’ for change towards a balanced process-product so favourably to the structured questionnaire on choice of teaching strategies tends to support this opinion. Process skill competency and orientation must be addressed in the preservice science units but with an appropriate emphasis on their interdependence with concept development. Some input ensuring an understanding of the processes within the overall scientific framework would seem to be required. The next stage of this study will be to compare the pre- and post-unit data to determine a measure of the changes (if any) that have occurred. As the unit focusses on student led discussions related to the interdependence of science process skill and concept development [Harlen (1985), Chapters 1 to 7]; includes practical investigations which emphasise learner preconceptions and investigation planning, data collecting and processing; and requires students to prepare lesson sequences revolving around Harlen's “shapes”, e.g. hypothesis generation (p.p. 166–172), then significant changes are anticipated.  相似文献   

16.
Self-regulated learning (SRL) in the museum was explored by 2 investigations. The first one investigated 233 visitors on their goals and intended learning strategies by questionnaire before they visited the science museum. Results indicated visitors’ learning goals can predict their intended deep-learning strategy. Moreover, visitors can be clustered into 4 groups and their cluster identity can also predict the intended learning strategies. The second investigation asked 244 visitors about their actual learning strategies and motivational appraisals (self-efficacy and control beliefs) after visiting. In all, 5 kinds of learning strategies were found: elaborating, help-seeking, effort-making, reorganizing, and surface-learning. These strategies can further predict their motivational appraisals. The characteristics of SRL in the informal learning context were discussed.  相似文献   

17.
Students’ motivational beliefs and self‐regulatory practices have been identified as instrumental in influencing the engagement of students in the learning process. An important aim of science education is to empower students by nurturing the belief that they can succeed in science learning and to cultivate the adaptive learning strategies required to help to bring about that success. This article reports the development and validation of an instrument to measure salient factors related to the motivation and self‐regulation of students in lower secondary science classrooms. The development of the instrument involved identifying key determinants of students’ motivation and self‐regulation in science learning based on theoretical and research underpinnings. Once the instrument was developed, a pilot study involving 52 students from two Grade 8 science classes was undertaken. Quantitative data were collected from 1,360 students in 78 classes across Grades 8, 9, and 10, in addition to in‐depth qualitative information gathered from 10 experienced science teachers and 12 Grade 8 students. Analyses of the data suggest that the survey has strong construct validity when used with lower secondary students. This survey could be practically valuable as a tool for gathering information that may guide classroom teachers in refocusing their teaching practices and help to evaluate the effectiveness of intervention programmes.  相似文献   

18.
The advent of genomics, proteomics, and microarray technology has brought much excitement to science, both in teaching and in learning. The public is eager to know about the processes of life. In the present context of the explosive growth of scientific information, a major challenge of modern cell biology is to popularize basic concepts of structures and functions of living cells, to introduce people to the scientific method, to stimulate inquiry, and to analyze and synthesize concepts and paradigms. In this essay we present our experience in mixing science and education in Brazil. For two decades we have developed activities for the science education of teachers and undergraduate students, using microscopy images generated by our work as cell biologists. We describe open-air outreach education activities, games, cell modeling, and other practical and innovative activities presented in public squares and favelas. Especially in developing countries, science education is important, since it may lead to an improvement in quality of life while advancing understanding of traditional scientific ideas. We show that teaching and research can be mutually beneficial rather than competing pursuits in advancing these goals.  相似文献   

19.
Roussel De Carvalho uses the notion of superdiversity to draw attention to some of the pedagogical implications of teaching science in multicultural schools in cosmopolitan cities such as London. De Carvalho makes the case that if superdiverse classrooms exist then Science Initial Teacher Education has a role to play in helping future science teachers to become more knowledgeable and reflective about how to teach school students with a range of worldviews and religious beliefs. The aim of this paper is to take that proposition a step further by considering what the aims and content of a session in teacher education might be. The focus is on helping future teachers develop strategies to teach school students to think critically about the nature of science and what it means to have a scientific worldview. The paper draws on data gathered during an interview study with 28 students at five secondary schools in England. The data was analysed to discover students’ perceptions of science and their perceptions of the way that science responds to big questions about being human. The findings are used to inform a set of three strategies that teachers could use to help young people progress in their understanding of the nature of science. These strategies together with the conceptual framework that underpins them are used to develop a perspective on what kinds of pedagogical content knowledge teacher education might usefully provide.  相似文献   

20.
There is a growing body of research indicating that students who can self-regulate cognitive, motivational, and behavioral aspects of their academic functioning are more effective as learners. We studied relations between the self-regulation strategies used by a group of Italian students during the final years of high school and their subsequent academic achievement and resilience in pursuing higher education. We used the self-regulated learning interview schedule, which focuses on cognitive, motivational, and behavioral strategies used during academic learning in both classroom and non-classroom contexts. The cognitive self-regulation strategy of organizing and transforming proved to be a significant predictor of the students’ course grades in Italian, mathematics, and technical subjects in high school and in their subsequent average course grades and examinations passed at the university. The motivational self-regulation strategy of self-consequences was a significant predictor of the students’ high school diploma grades and their intention to continue with their education after high school.  相似文献   

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