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1.
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
2.
Colette Murphy Peter Neil Jim Beggs 《Educational research; a review for teachers and all concerned with progress in education》2013,55(4):415-430
Background This paper compares the findings from a recent, large-scale UK-wide survey of primary teachers' confidence in teaching science with the results of a seminal report carried out 10 years ago by Wynne Harlen in Scotland. Recent reports from across the UK have indicated there are still serious concerns relating to primary teachers' confidence and ability to teach science effectively. Purpose The main research aims were to provide a clear, evidence-based analysis of the current issues facing primary science in the UK; explore primary teachers' confidence in science teaching and to evaluate the impact of science initiatives taking place in UK primary schools. Sample The sample for the study comprised: telephone interviews with 300 primary teachers from all UK regions; seven focus groups of primary teachers held in England, Northern Ireland, Scotland and Wales to further explore the issues raised in the telephone interviews; and workshops from a two-day conference of 75 stakeholders in primary science from all UK regions (approximately half the delegates were teachers; also represented were teacher educators (initial and continuing professional development), curriculum developers and policy-makers). In addition, 100 teacher education institutions were surveyed in relation to their participation in primary science initiatives. Design and methods The methodology for both studies comprised qualitative and quantitative elements (see sample details, above). All data were collected between June and September 2004. Results The findings indicated that there are improvements in some areas of primary teachers' confidence in teaching science. However, the study showed that half of the teachers surveyed cited lack of teacher confidence and ability to teach science as the current issue of major concern in primary science. This paper also reports on some of the professional development initiatives carried out by higher education institutions in primary science. Conclusions The paper concludes that there has been some progress in developing teacher confidence in primary science over the past 10 years. However, the situation is still critical for all stakeholders. Half of the teachers surveyed in the UK for the present study identified lack of teacher confidence and ability to teach science as the major issue of concern in primary science. Higher education institutions need to enhance the preparation of new primary teachers to ensure that they are all confident and effective teachers of science. They could also increase their partnership work with schools and other continuing professional development (CPD) providers in relation to primary science. The evidence demonstrates clearly that there is a need for substantially increasing science professional development for primary teachers. It also shows that such professional development could be more effectively targeted at specific aspects of science teaching that are more challenging for teachers. Further, the study shows that professional development in science works, in that teachers who have experienced science continuing professional development (CPD) are much more confident to teach science than those who have not. 相似文献
3.
《Teaching in Higher Education》2013,18(4):547-551
'Moonlight and Magnetism' was designed as a performance involving science, poetry and modern dance to communicate the concepts of electromagnetism. The intention is to demonstrate that electricity, electromagnetism and waves can be viewed and expressed in many different ways. The principles of induction can be explained by equations, words and in the performance by a series of dance movements. Whilst the performance itself is not for an undergraduate course, there may be useful ideas to stimulate colleagues into looking at lecturing on science and engineering topics in new ways. Engineers look at their subject from a technical perspective. Should we, as teachers, stimulate our students and broaden their viewpoint by introducing, at some point in lecture courses, entirely different viewpoints? 相似文献
4.
《Africa Education Review》2013,10(1):97-110
Abstract The aim of this paper was to review the contribution of private institutions to higher education in Africa and use Monash South Africa as a case study. A literature search was conducted to gain perspective on the current situation with respect to private higher education institutions in Africa and how they are perceived in relation to public higher education institutions. In comparison with public higher education institutions, private higher education institutions in Africa were successful in four areas: ? Widening access to higher education in the continent ? Improving the quality of education ? Improving student experience ? Increasing the recognition and marketability of their degrees However, private higher education institutions in Africa have failed in two areas: ? Reducing the costs of higher education in Africa ? Assisting with retention of skilled human capital in African countries. In fact, private higher education institutions in Africa, have exacerbated the two situations above. Monash South Africa was the first foreign university to be established in South Africa and one of over 100 private universities in the continent. As a campus of Monash University in Africa, it has seen a steady growth with over 3,500 students in the past 10 years of its existence. Like other private institutions, the campus was successful in the four areas above and also fails in the area of costs and assisting in retention of skilled staff in Africa. The campus has been successful in blending its private provider status with a public purpose mandate by offering degrees in social science, business and economics, information technology and health sciences. 相似文献
5.
Annika Karlsson Pia Nygård Larsson Anders Jakobsson 《International Journal of Science Education》2013,35(15):2049-2069
ABSTRACTThis study describes multilingual students’ authentic use of their first and second languages in a translanguaging science classroom, from a sociocultural perspective. The study is ethnographic, and has followed some lessons each month in a translanguaging science classroom at a primary school for three years. The observed lessons were documented by four video cameras and four audio recorders, while field notes and different types of students’ texts and other teaching materials were also collected. In order investigate how language operates, and to realise the meaning semantically, we analysed the students’ use of both first and second language to tie paradigmatic relations, and how they move in linguistic loops between languages and discourses. The results illustrate the ways in which a translanguaging science classroom constitutes a resource in joint negotiations of the scientific content and its related language for multilingual students, and benefits the students’ ability to relate and contextualise the science content to prior experience. The creation of translanguaging science classrooms, in which students’ experiences and diverse cultural and linguistic resources interweave with school science, and in which multilingual students are enabled and encouraged to use all available language resources, has important implications for science education. 相似文献
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7.
The primary thesis of this article is that undergraduates of any major can understand the important theories of computer science (CS) and the relevance of computing technology. We propose that by conceptualizing CS service courses as liberal education classes that emphasize such topics, we can move students from a state of technological ignorance and fear to one of understanding and appreciation of technology. Here, we provide an instance of such a course. A detailed explanation of the course and student and instructor evaluations are described and discussed. 相似文献
8.
Conflicting knowledge claims regarding complex issues have become readily available through networked digital media, and the introduction of Internet access to classrooms has provided opportunities for accessing a huge number of sources. Science education plays an important role in providing students opportunities to seek and evaluate information and engage in reasoning. The aim of this article is to analyze ways upper secondary science students invoke recirculated online claims originating from a scientific paper in conversations regarding genetically modified organisms (GMO), and to understand how such invocations are effective in order for students to engage accountably. By using the notion of communicative activity types—the meaning and function of the recirculated claims were analyzed in (1) a peer discussion, (2) a debate, and (3) a reflective seminar. The persuasive power of the discursive resource “appeals to science” is illustrated when students enlist scientific objectivity and rigor to underpin the credibility of arguments in a debate, and when qualifying a reflective position in a seminar, whereas they reflect on how actors in a Web context use appeals to science rhetorically when engaged in a discussion with peers reporting online claims. The study offers insight into kinds of communicative competences involved in conversations and how “scientific facts” justify, in this case, opposition to GMO. Finally, it is reflected upon the importance of not only learning how to make well-founded knowledge claims, but also to understand how science is used rhetorically in order to develop appropriate responses to complex issues in the digital age.
相似文献9.
Ronald M. Cervero 《International Journal of Lifelong Education》2013,32(2):91-101
The popular wisdom among professionals is that the knowledge they acquire from practice is far more useful than what they acquire from more formal types of education. This observation contradicts the dominant viewpoint in society and the professional education establishment that has given legitimacy to knowledge that is formal, abstract and general while devaluing knowledge that is local, specific and based in practice. This viewpoint has strongly influenced continuing education, which has followed the model set at the preservice level in focusing on the transmission of formal, abstract knowledge. In this paper, I describe and provide evidence for three propositions that build on the importance of knowledge gained from practice. These are: (1) the goal of professional practice is wise action; (2) knowledge acquired from practice is necessary to achieve this goal; and (3) a model of learning from practice should become the centrepiece of systems of continuing education for the professions. 相似文献
10.
Mark Elam Anne Solli Åsa Mäkitalo 《Discourse: Studies in the Cultural Politics of Education》2019,40(1):61-77
ABSTRACTWhat are the current challenges and opportunities for bringing actor-network theory (ANT) into issues-based science education? This article discusses experiences gained from introducing an educational version of ANT deploying digital technology into an upper secondary school science class. This teaching innovation, called controversy mapping, has been pioneered in different contexts of higher education before being adapted to school education. Experimenting with controversy mapping in a Swedish science class raised both conceptual and practical issues. These centre on: (1) how ANT-inspired controversy mapping redesigns the citizenship training enacted by institutionalized approaches to issues-based education as socioscientific issues (SSI); (2) how controversy mapping reconfigures the interdisciplinarity of issues-based science education; and (3) how controversy mapping displaces scientific literacy and knowledge of the nature of science as guiding concerns for teaching in favour of new preoccupations with digital literacy and digital tools and methods as contemporary infrastructures of free and open inquiry. 相似文献
11.
Peter Mtika Frances Payne 《Educational research; a review for teachers and all concerned with progress in education》2013,55(4):436-452
Background:?This article reports on a mentoring programme which was implemented in selected Scottish secondary schools with the view to supporting students with school work, transition to further education/higher education, careers, and interpersonal skills. Mentoring students can enhance their academic, social, career and other outcomes. Mentoring relationships, when properly implemented, have been found also to yield positive results for mentors.Purpose:?This paper is an investigation into a school-based mentoring programme which was implemented in 6 selected Scottish secondary schools. In so doing, we hope to contribute to an evolving framework for designing and implementing successful school-based mentoring.Sample:?The sample for this study included 10 students aged between 16 and 17 years old in the second year of a broader 2-year business/education project, which aimed to promote student uptake of science, technology, engineering and mathematics (STEM) careers after secondary school. There were 11 mentors, who were drawn mainly from the science, health and the education sectors.Design and method:?Methodologically, this study was qualitative interpretivist in nature. Data collection involved focus group discussion and individual semi-structured interviews.Results:?The findings show mentee and mentor preparation, clarity of expectations, mentee–mentor matching, mentee motivation, appropriateness of meeting spaces and power relations, modes of communication including the use of social media, and the role of schools as essential conditions which influenced the quality of mentoring relationships.Conclusion:?The findings suggest that mentoring programmes involving students in school and ‘external’ adult mentors need to consider a range of factors to achieve success when designing and implementing mentoring. This paper raises important issues for example, communication using social media, which have implications for practice in business sector and school partnerships involved in school-based mentoring. 相似文献
12.
In secondary education 'energy' is often introduced by distinguishing different 'forms of energy' for different phenomena. Of these forms of energy, only kinetic and potential energy are accepted in current science. The question has been raised whether all forms of energy should be eliminated from secondary school science curricula. As a contribution to this discussion we will first analyse the language used to introduce 'forms of energy' in order to determine possible inconsistencies and limitations of validity, judged from the viewpoint of thermodynamics. In Part II, the results of two teaching experiments at university level will be presented. In these experiments attempts are made to build on students 'forms of energy' language as well as to challenge its limitations. As a result of both parts, conclusions will be drawn as to whether 'forms of energy' can be accepted 'as an intermediary language' and changes to the usual teaching sequence will be proposed. 相似文献
13.
An understanding of current views of the nature of science continues to be regarded as an important outcome of school science. Studies of the conceptions of the nature of science held by primary school teacher education students is therefore important. This article reports the conceptions held by 73 preservice primary teachers. There were elements in the conceptions of the nature of science articulated by this group which clearly were not in accord with modern views. For example, one in five, in many instances, chose responses which would be unacceptable to many modern philosophies of science. Further, many chose 'don't know' as a response to a variety of specific propositions about science, ranging from a low of 1.5% to 3.15% of respondents. The responses of school leavers and mature age students did not differ in any substantial way. In addition, the use of newspaper science reports is described as a novel means to probe conceptions of the nature of science. 相似文献
14.
Eileen Carlton Parsons Rhea Miles Michael Petersen 《Research in Science & Technological Education》2013,31(3):257-274
Background: Research has primarily concentrated on adults’ implicit theories about high quality science education for all students. Little work has considered the students’ perspective. This study investigated high school students’ implicit theories about what helped them learn science. Purpose: This study addressed (1) What characterizes high school students’ implicit theories of what facilitates their learning of science?; (2) With respect to students’ self-classifications as African American or European American and female or male, do differences exist in the students’ implicit theories? Sample, design and methods: Students in an urban high school located in south-eastern United States were surveyed in 2006 about their thoughts on what helps them learn science. To confirm or disconfirm any differences, data from two different samples were analyzed. Responses of 112 African American and 118 European American students and responses from 297 European American students comprised the data for sample one and two, respectively. Results: Seven categories emerged from the deductive and inductive analyses of data: personal responsibility, learning arrangements, interest and knowledge, communication, student mastery, environmental responsiveness, and instructional strategies. Instructional strategies captured 82% and 80% of the data from sample one and two, respectively; consequently, this category was further subjected to Mann-Whitney statistical analysis at p < .05 to ascertain ethnic differences. Significant differences did not exist for ethnicity but differences between females and males in sample one and sample two emerged. Conclusions: African American and European American students’ implicit theories about instructional strategies that facilitated their science learning did not significantly differ but female and male students’ implicit theories about instructional strategies that helped them learn science significantly differed. Because students attend and respond to what they think and perceive to be important, addressing students’ implicit theories may be one way to enhance science education reform. 相似文献
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16.
Martin Braund 《Mentoring & Tutoring: Partnership in Learning》2013,21(3):189-200
The school-based task is firmly established in teacher education in the UK. In the study reported, primary student teachers carried out tasks exploring children's learning in science and were told to discuss the outcomes with their classteacher-mentors. The tasks and their university-based training followed a "constructivist" approach to learning science. The mentors' role in debriefing school-based tasks has been assumed to be one of "reflective practitioner" able to unpack issues of pedagogy with the student teacher. The research reported here shows that discussions often lacked depth or reflected a superficial or different understanding of constructivism by mentors that conflicted with the student teachers' aspirations. The implications of the research for future practice in teacher education and specifically for the training of mentors in science are discussed. 相似文献
17.
Carmel McNaught Dianne Raubenheimer Margaret Keogh Rob O'Donoghue Jim Taylor 《Research in Science Education》1992,22(1):291-298
This paper describes an ongoing process of participatory curriculum development. It outlines some of the tensions which need
to be explored in science curriculum development: debates about the nature of science, of society, of school science content
and of learning theories. The process whereby action can arise from this debate is also explored. An example will be outlined
of a network of science curriculum action which has developed from the work of a range of science education projects in Natal,
South Africa.
Specializations: science curriculum development from primary to tertiary level.
Specializations: inservice primary science teacher development.
Specializations: inservice teacher development, biology education.
Specializations: environmental education, teacher development.
Specializations: environmental education, teacher development. 相似文献
18.
《Africa Education Review》2013,10(2):204-219
Abstract South Africa's Revised National Curriculum Statement for Further Education and Training (FET) is premised on the view that there are competing perspectives and worldviews from which to make sense of phenomena. Accordingly, elements of indigenous knowledges have been integrated into the discursive terrains of all subjects that form part of the National Curriculum Statement. This policy statement invites several critical questions, some of which are addressed in this article in relation to science education. These include questions as to whether seemingly disparate perspectives of ‘the world’ are competing or complementary and whether science (education) is universal or multicultural. A universalist position holds that Western modern science has superior explanatory powers of understanding the natural world to those of indigenous knowledges. A multiculturalist position holds that science is culturally produced and that cultures have disparate ways of understanding the natural world and that different ways of knowing should be recognised as science. This article discusses critical questions arising from much contestation about the nature of science as a consequence of different perspectives on science held by universalists and multiculturalists. Some of the implications this discussion has for science education in contemporary South Africa are also examined. 相似文献
19.
Ojeda-Romano Gabriela Fernández-Marcial Viviana Wilkinson Clare Stengler A. Erik 《Higher Education》2022,84(4):801-825
As key elements in research and development systems, higher education institutions have been taking a leading role when it comes to communicating science and technology, but their performance has been inconsistent so far. In this critical and comparative study of the UK public engagement model and the Spanish scientific culture model, eighteen practitioners from higher education institutions across both regions were interviewed. A mixed qualitative data analysis has been performed identifying similarities and differences that unravelled the science communication management model in the two different higher education systems. This article provides evidence on how the institutionalisation of science communication is strongly influenced by key driving forces in the higher education context as well as the policies of administrations and other agents.
相似文献20.
This paper reports an empirical study of science education in Australian primary schools. The data show that, while funding
is seen as a major determinant of what is taught and how it is taught, teacher-confidence and teacher-knowledge are also important
variables. Teachers are most confident with topics drawn from the biological sciences, particularly things to do with plants.
With this exception there is no shared body of science education knowledge that could be used to develop a curriculum for
science education. There was evidence that most teachers see a need for a hands-on approach to primary science education involving
the use of concrete materials. A substantial proportion of teachers agree that some of the problems would be alleviated by
having a set course together with simple, prepared kits containing sample learning experiences. Any such materials must make
provision for individual teachers to capitalise on critical teaching incidents as they arise and must not undermine the professional
pride that teachers have in their work.
Specializations: science education, school effectiveness, teacher education
Specializations: science education, teacher education in science 相似文献