Towards becoming a reflective practitioner: What to know and where to find it

Preparing student teachers to teach thoughtfully and to consider carefully the consequences of their work involves creating opportunities for these beginning teachers to learn the skills and attitudes required for reflective practive. The case study described here explores one model of developing reflective practice and the congruent role that the source and use of knowledge of good teaching practice has in the process of developing the reflective practices of a post-graduate pre-service science teacher. Of particular interest are the facilitators and barriers she sees as affecting this development. Specializations: Science education, science teacher education Specializations: science education, science teacher education, conceptual change, learning environments, science reasoning.     

Primary pre-service teachers' pedagogical reasoning skills

This paper discusses a preliminary investigation into primary pre-service teachers' pedagogical reasoning skills. Results from this investigation led to the development of a problem-based learning model which focused on improving primary pre-service teachers' pedagogical reasoning skills. The problem-based learning model uses pedagogical reasoning as the basis for creating problem situations for the pre-service teachers to investigate. The paper reports on pre-service teachers' views on the use of the approach to improve their pedagogical reasoning skills. Specializations: science teacher education, learning in science, chemistry education. Specializations: student learning, conceptual change, technology education, curriculum evaluation.     

Attitudes of pre-service mature age women students towards teaching primary science: An interview study

During the first semester of their teacher education degree mature age women improved significantly in their attitude towards teaching primary science compared to other sub-groups. The reasons for this difference were explored by interviewing several of the mature age women. An interpretation of these interviews and possible implications for pre-service science education are reported. Specializations: primary science and environmental teacher education.     

Students' learning in science lessons: towards understanding the learning process

Constructivist views of learning have been applied to science education largely as a response to attempts to understand the origins of students' misconceptions in science, and therefore the learning process. As part of this effort to understand learning in science lessons, Appleton (1989) proposed a learning model drawn mainly from Piagetian (1978) ideas and generative learning theory (Osborne & Wittrock, 1983). This paper explores the development and evolution of the learning model as other constructivist view were applied, and as the model was tested against students' responses in science lessons. The revised model finally arrived at is then examined. It was found to be a useful means of describing student's learning processes during a science lesson. Specializations: primary teacher education, teaching strategies in science, cognitive change and learning theories. Specializations: secondary science teacher education, chemical education.     

The reluctant primary school teacher

The study attempts to identify the factors which affect teacher's reluctance to teach science, then explains an approach to help teachers teach science in a worthwhile manner over the school year while monitoring any changes in their confidence and competence. It was found that the condidence and competence of the teachers improved during the year such that they were able to teach successful science lessons on a regular basis. Specializations: primary science and technology education, curriculum development and implementation, teacher education. Specializations: primary science curriculum, early childhood education, gender and science. Specializations: primary science and technology education, issues related to girls in science and technology.     

Making Practice Visible: A collaborative self-study of tiered teaching in teacher education

In this article we document the impact of tiered teaching on making the complexity of pedagogy transparent when teaching science education to pre-service primary teachers. Teaching science methods classes together and researching our teaching has enabled us to reframe our assumptions and move beyond the simplistic and misleading idea that teacher education is the modeling of exemplary practice. This self-study has evolved over three years. We were faced with the tension between modeling exemplary practice to teach science education and science content and making our teacher education practices explicit to our students. Tiered teaching has allowed us to manage this tension. Four major themes emerged from this self-study: the cost of tiered teaching; the shift in priority to less science education and more teacher education; our own growth in expertise; and the transformation of our practice.     

Influencing Intended Teaching Practice: Exploring pre-service teachers’ perceptions of science teaching resources

Many researchers have identified and expressed concern over the state of science education internationally, but primary teachers face particular obstacles when teaching science due to their poor science background and low confidence with science. Research has suggested that exemplary resources, or units that work, may be an effective way to support primary teachers. This study explores the effect of one such resource on the intentions of pre-service primary teachers to teach science. The resource in question is Primary Connections, a series of learning resources produced by the Australian Academy of Science specifically designed for primary science. Evaluative studies of Primary Connections have indicated its efficacy with practising primary teachers but there is little evidence of its impact upon pre-service teachers. The purpose of this study was to investigate how effective these quality teaching resources were in influencing the intentions of primary pre-service teachers to teach science after they graduated. The theory of planned behaviour highlighted the linkage between the intentions of the pre-service teachers to teach science, and their awareness of and experiences with using Primary Connections during their education studies. This enabled key factors to be identified which influenced the intentions of the pre-service teachers to use Primary Connections to teach science after they graduate. The study also provided evidence of how quality science teaching resources can be effectively embedded in a teacher education programme as a means of encouraging and supporting pre-service teachers to teach science.     

Reconceptualised family resemblance approach to nature of science in pre-service science teacher education

A recent framework on nature of science (NOS) is the Family Resemblance Approach (FRA). FRA presents NOS as a cognitive-epistemic and social-institutional system with a set of categories: aims and values, scientific methods, scientific practices, scientific knowledge and social-institutional aspects of science. Although FRA has been problematised philosophically and its implications for science education have been considered by science educators, its empirical adaptations in science education are limited. In order to illustrate the educational adaptations of FRA, we refer to Reconceptualised Family Resemblance Approach to Nature of Science or RFN. We present a study based on a funded pre-service science teacher education project whose aim was to design, implement and evaluate the impact of RFN strategies. Fifteen pre-service teachers participated in a 14-week teacher education intervention that infused RFN. A 70-item questionnaire was designed to investigate the outcomes of the teacher education intervention. Individual interviews with pre-service teachers were also conducted. Quantitative and qualitative data analysis suggest that the teacher education intervention had an overall significant impact on pre-service teachers’ views of NOS. The paper contributes to the understanding of how NOS can be incorporated in science teacher education using a new orientation to NOS based on FRA.     

英国小学科学教育改革：实地考察与思考

笔者通过实地考察发现:英国小学科学课堂教学既有采用"建构式探究"教学模式的,也有采用"接受式探究"教学模式的.此外,近年来英国小学科学教育改革还采取了多项有效的政策性措施,如通过立法确立小学科学课程在国家义务教育课程中的核心地位;教师职前教育中注重培养小学教师的科学教学能力;国家建立"科学学习中心",提高在职教师的专业化水平;在教学过程中普遍采用"学习性评价",使评价与教学合二为一,以此提高探究教学的效率和质量,等等.     

Understanding the approaches to the teaching of religious education of pre-service primary teachers: The influence of religio-scientific frameworks

This paper explores what foundational concepts pre-service primary teachers are employing when they teach religious education. The study measured the attitudes to science and its relationship to religion of 92 pre-service primary teachers. Analysis of extended interviews with eight of the pre-service primary teachers illustrated how specific religio-scientific frameworks could be linked to distinct differences in approach to the teaching of religious education. The implications for teacher education were then discussed, as well as the necessity to integrate the teaching of religion and science into the design of future pedagogical approaches.     

Primary science teacher confidence revisited: ten years on

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.     

Pre-service teachers' use of problem-solving in primary science

The use of problem-solving in science instruction implies a change in the teacher's role from dispensing content information to encouraging critical reflective thinking in the student. For problem-solving to become an integral part of the science curriculum, teachers must make it the focus of their instruction. This study investigated the extent to which pre-service primary teachers used the problem-solving approach in their science instruction. It also identified the factors affecting their efforts to teach science using this approach. The issues considered are important in whether problem-solving becomes part of the science curriculum, as teaching behaviour influences student learning outcomes. Specializations: science eeducation Specializations: educational measurement, research methodology.     

Gender,pre-service teachers and assessment of pupil work

Across Australia fewer females choose to study the physical sciences and their achievements are lower than for males. Many reasons have been put forward for this. Elsewhere science teachers have been found to hold gender-stereotyped expectations of their pupils and to assess pupil capabilities differently according to the gender of the pupil. The gender of the teacher has also been found to affect the assessments made. This study investigated whether pre-service teachers would assess pupil capability across a range of work samples and potential in science differently according to the gender of the pupil or the gender of the pre-service teacher. No statistically significant differences were found for the assessments made. Weak trends in the data along gender-stereotypic lines were found which have implications for teacher training courses. Correlational findings also revealed worrying trends relating forms of assessment with assessment of pupil capability and potential. Ms Helen Forgasz, Research assistant and Ph.D. studen, Faculty of Education, Monash University, 3168.Specializations: science, physics and mathematics education, gender issues.     

Improving the quality of primary science teaching through a pre-service course

This paper describes a study involving second and third year primary Diploma of Teaching students. It considers their discipline competence, their confidence in teaching particular topic areas and their views of the nature of science teaching in the classes in which they were placed during teaching rounds. It then describes attempts made within the science curriculum course to overcome particular problems. Specializations: Science teacher education, the practicum.     

Post-primary science teachers' perceptions of primary science education

Post-primary science teachers in Victoria were asked to express views about primary science curriculum design and implementation. They were also asked about the value of continuity between primary and post-primary science education. The post-primary teachers generally had favourable attitudes to primary science education and considered that cooperation would be useful-though it is not common at the moment. However, the data revealed a considerable range of opinion. Post-primary science teachers' views about primary science curriculum are similar to those of primary teachers themselves, but many post-primary teachers would place more emphasis on formal or textbook knowledge. Post-primary teachers see a number of systemic problems in implementing primary science education but their positive perceptions suggest the value of encouraging more structured links. The notion of continuity across the two sectors was well supported. Specializations: science education policy and practice, teacher education, school effectiveness. Specializations: science education, teacher education in science.     

The role of classroom research projects in the preparation of science teachers

Research undertaken by educational researchers based in universities has not had the desired impact on the practices of classroom science teachers. Yet Goodlad (1990) has argued that if teaching is to be recognised as a profession there is a great need for the marrying of the knowledge of the practitioner with that of the researcher. Student teachers might learn to respect the potential for such a union by undertaking minor classroom research projects during their teacher preparation programs. This paper discusses the role of research projects in pre-service teacher preparation with reference to an inquiry conducted with teacher education students. Specializations: science education, teacher learning and preparation, teaching thinking.     

Meeting the highly qualified teachers challenge

The moulding of the future of a nation depends on the teachers and the education they provide in schools. Research evidence from the US. National Assessment of Educational Progress (NAEP) confirms this to be the case. Quantitative analysis of data indicates that measures associated with pre-service teacher preparation are by far the strongest correlates of student achievement (Darling-Hammond 2000). The research report of Wilson, Floden, and Ferrini-Mundy (2001) also suggests a strong relationship between teacher preparation and teacher effectiveness. Other research studies similarly indicate that differences in teacher quality are the most crucial for student achievement when compared with variables such as class size, streaming, or the amount of homework (Anderson & Helms 2001; Mendro 1998; Powell & Anderson 2002; Rivkin, Hanushek & Kain 2001; Saunders & Horn 1994; Strong & Tucker 2000) as possible contributory factors. In the pursuit of improved student achievement, we therefore need to examine seriously the role of teacher variables, ranging from teacher qualifications and their subject matter knowledge, to what motivates them to take up teaching as a career and as a consequence, how they teach in classrooms.     

Science and report writing

In recent years Australian primary schools have adopted an across-the-curriculum approach to writing. However, relatively little research has been conducted in the area of primary science. This paper reports the result of a small scale collaborative study involving a Year 2 and a Year 5 class, and their classroom teacher, which used science activities as the basis for developing report-writing skills using a framework consisting of three focus questions. Students in both classes learned to use the framework in one term and it was found that it improved the quality of reports. Specialisations: science and technology curriculum development, secondary and primary teacher education in agriculture, science and environmental education. Specialisations: cognition and curriculum, early childhood and primary teacher education in science and social education.     

Determinants of the competence and confidence of teacher education students studying primary science education

Conclusion This study suggests that most students entering science or science education units in preservice primary teacher education courses have a positive attitude to the teaching/learning of primary science and see value in all domains of science for children at this stage. This was an unexpected finding. It was of concern however, that their interest in physical science topics was so low. This may be due to previous specific experiences in secondary science. Science and science education units should build on the positive attitudes of students and could develop physical science ideas through their significance in environmental and social problems. Specializations: science education, teacher education in science. Specializations: science education policy and practice, teacher education, school effectiveness.     

Teaching science in primary schools: What knowledge do teachers need?

Several reviews on science education have lamented the lack of content knowledge of primary teachers and implied that improvements in this area would lead to better teaching and learning. Subject knowledge, however is a complex issue. What knowledge is required and how much? There is knowledge of the ‘content’ and the ‘processes’ of science. An elusive but essential third component has been described as syntactic (Grossman, Wilson &; Shulman, 1989), experiential (Burnard, 1986) or personal knowledge. This paper argues that it is unrealistic to consider the implementation of pre-service primary science courses that will provide potential teachers with all the ‘knowledge’ that they will require to be an effective teacher of science. Science educators, can however, provide effective frameworks from which pre-service students can identify and develop their existing knowledge. If teachers of science have their knowledge of science set within a personal view of science the potential exists for their school science programs to be more comprehensive, dynamic, relevant and contemporary. One perspective that could provide this framework is that offered by ‘Science, Technology and Society’ (S-T-S).