Outcomes of the primary and early childhood science and technology education project at the university of Canberra

The aim of the Primary and Early Childhood Science and Technology Education Project (PECSTEP) is to improve teaching and learning in science and technology of by increasing the number of early childhood and primary teachers who are effective educators. PECSTEP is based on an interactive model of teaching and systematically links work on gender with the learning and teaching of science and technology. The project involves: a year-long inservice program which includes the development of a science curriculum unit by teachers in their schools; linking of the preservice and inservice programs; and the development of support networks for teachers. Each phase of PECSTEP has been researched by means of surveys, interviews and the use of diaries. Research questions have focussed particularly on changes in: teachers’ and student teachers’ attitudes to teaching science and technology; their perceptions of science and technology; their perceptions of their students’ responses and their understandings of how gender relates to these areas. Specializations: primary science curriculum, science teacher education, sociology of science, technology and education. Specializations: gender and science/science teacher education, feminist theory, curriculum theory. Specializations: Science education research, curriculum development.     

Research into the environment of science laboratory classes in australian schools

Existing instruments for assessing student or teacher perceptions of characteristics of actual or preferred classroom psychosocial environment are unsuitable for one of the most important settings in science teaching, namely, the science laboratory class. Consequently, the Science Laboratory Environment Inventory (SLEI), was designed to assess student or teacher perceptions of seven scales:Teacher Supportiveness, Student Cohesiveness, Open-Endedness, Integration, Organization, Rule Clarity andMaterial Environment. An important feature of the design of the study was that the new instrument was field tested simultaneously in six countries: Australia, USA, Canada, England, Nigeria and Israel. This paper is based on a sample of 4643 students in 225 individual laboratory classes, together with the teachers of most of these classes. Preliminary analyses were used to shed light on various important research questions including the differences between Actual and Preferred environments, gender differences in perceptions of Actual and Preferred environment, the relationship between the science laboratory environment and attitude towards science laboratory work, differences between school and university laboratory classes, differences between teachers’ and students’ perceptions of the same laboratory classes, and differences between laboratory classes in different science subjects (Physics, Chemistry, Biology). Specializations: Science education, educational evaluation. Specializations: Curriculum, science education, science laboratory teaching. Specializations: Learning environments, science education, educational evaluation, curriculum.     

How confident are primary school teachers in teaching science?

The recent nationalDiscipline Review of Teacher Education in Mathematics and Science outlines the lack of confidence of many preservice primary school teachers in teaching science. This study explores the attitudes of 170 primary school teachers in a Perth school district. By means of a simple questionnaire the perceptions and attitudes of these teachers about the following aspects have been examined: (1) background understanding of science; (2) preservice training; (3) interest in teaching science; (4) skill in teaching science; (5) confidence in the plant, animal, matter, energy areas, and (6) time spent teaching science. Besides compiling frequency responses for all teachers on these aspects comparisons have also been made on the basis of: (1) gender; (2) time of graduation, and (3) grade level taught. Specializations: Primary science, teacher attitudes. Specializations: Primary science, science teaching strategies, curriculum implementation, cognitive studies.     

Teachers' perceptions of technology education: Implications for curriculum innovation

This paper describes research into teachers' perceptions of technology education carried out as part of the Learning in Technology Education Project. Thirty primary and secondary school teachers were interviewed. Secondary teachers interpreted technology education in terms of their subject subcultures as did some primary teachers. The primary teachers were also influenced by current initiatives, outside school interests and teaching programs. Specializations: investigations in science, science and technology education. Specializations: learning theories, history and philosophy of science, chemical education.     

Professional standards for the teaching of science: An exploratory study

The Science Education Professional Development (SEPD) Project was commissioned by the Commonwealth Department of Employment, Education and Training (DEET) as part of its Projects of National Significance Program. Its brief was to develop a national strategy for enhancing the professional development of science teachers. This paper summarises one component of the Project's work, an exploration of the feasibility of establishing professional standards or expectations for teachers of science. The aim was to give clearer purpose and direction to professional development planning and to provide a more valid basis for evaluating science teachers for career development. Specializations: Teachers' work and policy, teacher development, educational evaluation, teacher evaluation, research on teaching.     

Learning in science project (teacher development): The framework

The Centre for Science and Mathematics Education Research at the University of Waikato is now undertaking the fourth Learning in Science Project, LISP(Teacher Development). The project builds on the findings of the previous three projects on the nature of learning and how to improve learning of science in classrooms. This two-year project is investigating the process of teacher development (as change in behaviour and beliefs) in the context of two kinds of teacher courses that acknowledge and take into account teachers’ existing ideas. This paper summarises the planning done for the first phase of the project as detailed in Bell, Kirkwood and Pearson (1990). Specializations: learning theories, curriculum development, equity issues. Specializations: science education, teacher professional development.     

A comparison of elementary teacher attitudes and skills in teaching science in Australia and the United States

A study, originally don in Australia in 1983, was replicated in an urban-suburb in the Unitd States. The Australian project vivolved matched pairs of year-fiv teachers in one of two workshops. One workshop taught the skills of teaching electricity, while the other one discussed issues in gender equity in science education (active participation of both girls and boys, comparble student-teacher interactions, and research findings concerning equity). The U.S. study provided three types of workshops (skills, equity and skills, and equity) for comparable groups of fourth and fifth grade teachers. All teachers and their students were subsequently obseved during lessons involving an electricity unit, queried both students and teachers concerning the appropriateness of different fields of science for boys and girls and their interest and aptitudes in doing various types of science. Results from both studies suggest that gender differences in student attitudes toward science may be amellorated by specific types of teacher workshop. Specializations: Gender research, science teacher education, science education national policy. Specializations: Elementary and middle school science education, classroom research. Specializations: Secondary science education, data analysis.     

Response to the discipline review of teacher education in mathematics and science

This paper relates to a study commissioned by the Department of Employment, Education and Training to evaluate the impact of the Discipline Review of Teacher Education in Mathematics and Science. The major datagathering strategies employed in that study have been to visit every higher education institution in Australia involved in teacher education to interview relevant staff and to seek information by mail from other bodies to whom recommendations of the Review were addressed. This paper reports a supplementary activity, the analysis of citations of the Report of the Discipline Review in the journal of the Australasian Science Education Research Association,Research in Science Education. This research reveals that there has been relatively little critical analysis of the Review, somewhat surprising in the light of its significance for science teacher education. Further the citations in the journal suggest that the Review Report has struck a responsive chord with those involved in the science education of primary school teachers. Its impact on secondary teacher education would appear to be less significant. This difference is explored in the context of professional education. Specializations: science education, teacher education. Specializations: international education, educational measurement, science education.     

Teacher professional development: Which aspects of inservice do teachers believe influence their classroom practice?

Research into teacher inservice in primary science generally focuses on evaluating the objectives of each program in terms of the immediate outcomes. Little research appears to have been conducted into the long term effects of interactive inservice programs on the classroom practice of the participants. During 1993 the long term effects of participation in the Primary Science/Technology Project (Sci-Tec), as perceived by the teacher participants, were investigated. Focus teachers who had participated in Sci-Tec between 1988–1991 were asked to provide information about their current science teaching practice, and about the influence that Sci-Tec had had on their current practice. Six of these teachers were then interviewed to determine which specific aspects of the project they believed had most influenced the development of their current classroom practice in teaching science. Specializations: inservice and preservice in primary science and technology.     

Becoming a science teacher: First year teachers' approaches to learning about teaching

This paper discusses some of the issues arising from the first year of a longitudinal study into the career development of science teachers. It deals with the influences on, and approaches to, teaching by first year science teachers. Eighteen science graduates who had completed a Diploma in Education in 1990, were interviewed about their first year's teaching experiences. The participants explored issues ranging from the influences on their approach to teaching, student learning, determinants of a good lesson, the role of pre-service teacher training, and teaching as a career. Specializations: Science education, reflective practice, teaching and learning.     

Students' estimates of knowledge gained as measures of the quality of teacher education

One set of measures of the quality of courses for the preparation of science teachers stems from the perceptions exit students have of their knowledge with respect to that teaching. The Discipline Review of Teacher Education in Mathematics and Science surveyed these students late in 1988 on three broad types of knowledge-science content knowledge, curriculum knowledge, and pedagogical knowledge. Some of these findings of the Review are described. In addition, the base for developing items to measure these three types of knowledge is discussed in this paper. The variety in the data that emerged is also presented and the consistency of the findings with other measures of quality is described. Specialisations: science and technology curriculum, environmental education, educational disadvantage. Specialisations: research and evaluation in teacher education, technical and further education and total quality management. Specialisations: research in educational systems.     

Professional development and perceived needs of science teachers

About 100 science teachers in the Sydney Metropolitan West Region were surveyed to determine their professional development needs and the ways in which these needs could be met. The findings provide a ranking of science teacher perceived professional development needs, a list of possible incentives to motivate science teachers to complete inservice programs (in priority order) and an indication of the preferred modes of presentation to meet professional development needs. In general, science teachers stated a preference for professional development related to modern trends in science education directly related to classroom practice. In contrast to recommendations from DEET, science teachers indicated a preference for traditional models of inservice. Data related to preferred mode of inservice indicated significant gender differences. Specializations: science teacher professional development. Specializations: educational psychology and research design. Specialization: constructivist approaches in science education.     

Science teachers' views of professional development

Seventy-five science teachers from schools across Australia were interviewed in 1991 as part of the Science Education Professional Development Project (SEPD), a Department of Employment, Education and Training (DEET) funded Project of National Significance with a brief to develop a strategy to enhance the professional development of science teachers. At the time of interviewing there was considerable discussion about the implementation of a new classification, the Advanced Skilled Teacher. A major purpose of this Award Restructuring was to offer a career path for classroom teachers. In order to retain good science teachers and to encourage them to continue in the important role of classroom teaching it is crucial to understand and to meet their professional development needs. But what does it mean to develop and grow as a science teacher? What constitutes quality professional development? What do science teachers expect from professional development activities? This paper explores science teachers' expectations in relation to professional development and examines the implications for policy.     

Teacher perceptions of professional development needs and the implementation of the K-6 science and technology syllabus

This study examines teacher perceptions regarding professional development practices used in a region of the NSW Department of School Education to support the implementation of the K-6 Science and Technology Syllabus. The findings from a survey of 97 teachers indicate that teachers have a preference for ‘traditional’ models of in-service which may not bring about significant changes. Teachers also perceive that change is brought about through the influence of external factors such as in-service and resources which are not directly the responsibillity of individual teachers. This contrasts with the perception that the inability to change is due to internal personal qualities. Specializations; K-6 teacher education in science and technology education, children's learning in science and technology.     

Paying Attention to Bodies in Education: theoretical resources and practical suggestions

This article theorizes and exemplifies reconceptualized teaching practices, both in early childhood education (ECE) and in a couple of programs within the new Swedish Teacher Education (since 2001). These programs are tightly knit to the last 12 years of reconceptualized early childhood education practices in and around Stockholm, built on deconstructive, co‐constructive, and re‐constructive principles, inspired by poststructural and feminist poststructural theories. The aim is foremost to work towards a dissolution and/or transgression of the modernist theory‐practice binary that dominates ECE and teacher education practices, where theory is meant to be applied to practice. Student teachers, as well as pre‐school teachers, use what I have conceptualized as deconstructive talks, as a possibility of making visible the dominant discourses of childhood, identity, learning, play, and gender in the performed and documented teaching practices. In teacher education, students’ narratives are also deconstructed. The aim is to transgress teaching‐as‐usual; i.e. dominant and normative ways of thinking and acting in teaching and learning situations. I will suggest an ethics of ‘resistance’, affirmation and becoming, inspired by Derridean deconstructionist thinking, as a professional attitude and reflexive mode for teachers, teacher students and teacher educators.     

Discipline knowledge and confidence to teach science: self-perceptions of primary teacher education students

There has been renewed debate in recent years about the relatively poor science discipline background knowledge of primary and preschool teachers, and their lack of confidence to teach science stemming from this. A reaction from teacher educators, such as recommended by theDiscipline Review of Teacher Education in Mathematics and Science Report, has been to provide more explicit science discipline units in pre-service teacher education courses. However, a few studies have cast some doubt on the notion that more science discipline studies (Skamp, 1989; Stepans & McCormack, 1985). This paper reports on pre-service students' perceptions of their cofidence to teach science before and after a science education unit adapted from the PECSTEP work (Kirkwood, Bearlin & Hardy, 1989), which included only a small amount of physical science, and took an explicit gender approach emphasising the students as learners. Specializations: primary teacher education, teaching strategies in science.     

Persistence and withdrawal by students in a preservice science and mathematics teacher education course

At a time when recruitment into preservice teacher education courses in mathematics and science is difficult, one strategy to increase the number of graduates is to minimise the number of students who fail to complete their university courses. This study sought to determine factors which distinguish withdrawers from persisters in the first semester of a B.Ed course. Discriminant analysis was employed; a discriminant function employing seven factors resulted in correct classification in 81% of cases. Further analysis distinguishing between dropouts and transferees resulted in two discriminant functions with some common variables. Specializations: Science Education, Pedagogy. Specializations: Science Education, Inservice Teacher Education, Metacognition     

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.     

本科院校教师教育课程改革实践的现实与展望

我国高校的教师教育课程归纳为通识教育课程、学科专业课程和教育科学课程.各层面的教师教育院校在课程教学设计的理念上是有差异的.教师教育课程改革所取得的经验体现在优化思想政治理论课程、改善课程结构、实施多样化的课程模式等方面.教师教育课程管理仍存在学科本位、教育类课程地位相对较低、课程设置针对性滞后等问题.教师教育课程改革和走向将更加关注社会发展对教师教育变革的影响、教师专业化的时代要求和课程实施方式创新.