Developing an Instrument to Examine Preservice Teachers' Pedagogical Development

National and international reform documents have forged blueprints for advancing science education. Coursework for preservice teachers needs to correspond to these documents by providing learning experiences that develop preservice teachers' capabilities to plan and implement reform measures. Using a pretest–posttest design, responses from 59 2nd-year preservice teachers from the same university were compared after involvement in an elementary science pedagogy coursework. The survey, which was linked to the course outcomes (constructs) and multiple indicators, measured the preservice teachers' perceptions of their development towards becoming elementary science teachers. A pretest–posttest survey linked to course outcomes can be employed to assess perceived pedagogical development of preservice teachers, which can inform further teaching practices for implementing science education reform agendas

Exploring the impact of pedagogic approaches in technology practice upon the construction of feminine identity

Females participate to a limited extent in science, engineering and technology (SET) industries that are central to innovation and building national economies. The causes of this under representation, in part, have their roots embedded in how females perceive school mathematics, science and technology subjects as being inconsistent with their gender identity. A participatory action research methodology was used to investigate the effect of two different pedagogical approaches for teaching middle school mathematics and science through technology practice on female students’ attitudes to SET. Quantitative and qualitative data related to enjoyment, intention to undertake further such study, perceived usefulness and interest in career options involving SET, and perceptions of the investigative nature of the two approaches, were sought using, interviews, classroom observations, and a modified survey instrument. The findings indicated that female students responded in a more positive manner when careful scaffolding and the establishment of explicit linkages between the construction activity and mathematics principles were part of the pedagogical approach. In addition, there were specific types of projects that females found authentic. The implications of these findings for SET syllabus authors, pre- and inservice teacher educators, and classroom teachers are explored

Can twenty years of technology education assist "grass roots" syllabus implementation?

Teachers' informed acceptance of challenges associated with teaching technology might ensure the successful implementation of a Technology syllabus in primary schools. They must be prepared to analyse their own understandings of technology concepts and processes, teaching and resource needs, and engage in professional development activities designed to meet their needs. This paper investigates the introduction of a new Technology syllabus into a school and draws on a number of data sources, for example, surveys, interviews with individual teachers, classroom observations, and field notes. It was evident that very specific personal and classroom related issues (e.g., content and pedagogy), and broader issues related to the school and wider communities (e.g., resources and networking), impacted on teachers' acceptance of the syllabus. Based on these findings, the influence of 20 years of technology education and associated research on the essentials of classroom syllabus implementation by teachers is evaluated. Ways of making this store of knowledge and expertise more meaningful and accessible for teachers are explored. [ABSTRACT FROM AUTHOR] Copyright of International Journal of Technology & Design Education is the property of Springer Science & Business Media B.V. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.

Beginning elementary school teachers and the effective teaching of science

Many factors influence the teaching of science by beginning teachers in elementary schools. They have to confront a myriad of daunting experiences and tasks in their first few weeks at school. They are also expected to teach a comprehensive curriculum including science with its attendant demands for a constructivist approach to teaching and learning, cooperative group work, and reliance on resources. This paper describes the experiences of three beginning teachers as they worked their way through the first year of teaching, with an emphasis on analyzing the influence of these experiences on their planning and implementation of science lessons in the classroom. A theoretical framework of self-efficacy, and related attitudes and motivation to teach science, was used for the analysis. Implications for the design of science education courses within preservice programs, and the development of induction programs for beginning elementary teachers, to ensure teachers’ long-term commitment to the effective teaching of science, are discussed in the paper

Outcomes and implications of one teacher's approach to context-based science in the middle years

In Australia, there is a crisis in science education with students becoming disengaged with canonical science in the middle years of schooling. One recent initiative that aims to improve student interest and motivation without diminishing conceptual understanding is the context-based approach. Contextual units that connect the canonical science with the students’ real world of their local community have been used in the senior years but are new in the middle years. This ethnographic study explored the learning transactions that occurred in one 9th grade science class studying a context-based Environmental Science unit for 11 weeks. Outcomes of the study and implications are discussed in this paper

Engaging middle school students in context-based science: one teacher's approach

In Australia, there is a crisis in science education with students becoming disengaged with canonical science in the middle years of schooling. One recent initiative that aims to improve student interest and motivation without diminishing conceptual understanding is the context-based approach. Contextual units that connect the canonical science with the students’ real world of their local community have been used in the senior years but are new in the middle years. This ethnographic study explored the learning transactions that occurred in one 9th grade science class studying an Environmental Science unit for 11 weeks. Data were derived from field notes, audio and video recorded conversations, interviews, student journals and classroom documents with a particular focus on two selected groups of students. Data were analysed qualitatively through coding for emergent themes. This paper presents an outline of the program and discussion of three assertions derived from the preliminary analysis of the data. Firstly, an integrated, coherent sequence of learning experiences that included weekly visits to a creek adjacent to the school enabled the teacher to contextualise the science in the students’ local community. Secondly, content was predominantly taught on a need-to-know basis and thirdly, the lesson sequence aligned with a model for context-based teaching. Research, teaching and policy implications of these results for promoting the context-based teaching of science in the middle years are discussed

Origins of, and changes in preservice teachers' science teaching self efficacy

This paper reports on a part of a study of factors that contribute to science anxiety and science teaching self efficacy among preservice primary and early childhood teachers. It draws upon our experiences over four years with preservice primary and early childhood teachers at an Australian University. Primary teachers are responsible for the inclusion of science instruction in years 1-7 while the early childhood teachers should provide science experiences for children in child care, kindergarten, preschool and the early years of primary school. Science anxiety presumably develops through negative and limited experiences and impacts on people's interests and beliefs about science and, for preservice teachers, their confidence to teach science. Preservice training of teachers is an opportunity to provide positive experiences that may enhance student teachers' beliefs that they may become effective science teachers. Thus, the experiences and beliefs of primary and early childhood preservice teachers were explored in an ethnographic research tradition. In all 366 students from four cohorts were studied. Two of these cohorts were undertaking a content oriented Science Foundations course that focused on matter and energy concepts. A third cohort undertook a Science Curriculum course that concentrated on science teaching methods and the fourth cohort represented a smaller group of post-baccalaureate students who completed a combined content-methods course. Students' self efficacy, attitudes to science, perceptions of their University learning environment were measured at the commencement and conclusion of the semester of study and selected students were interviewed at various stages of the one semester course. The salient outcomes revealed that personal science teaching self efficacy was associated with negative high school experiences and could be improved in situations where individual students experienced support and an appropriate learning environment. Outcome expectancy also could be improved through experiences in which students successfully implemented teaching programs to children. Analysis of qualitative data revealed interesting contrasts between students. A series of assertions about the causative factors that may influence the development of students' sense of self efficacy were derived from an analysis of the data

Beginning Teachers Becoming Professionals Through Action Research

This paper describes the conduct of, and acquired understandings from, a study designed to promote the professional growth of a group of beginning primary school teachers through participatory action research. The beginning teachers collaborated with university academic staff during the design and conduct of the study. A key component of the study was the formation of action research cells of participating teachers with each group focusing on particular aspects of teaching, for example, assessment, catering for gifted and talented students, and inclusivity in the classroom teaching program. The overall findings from the study, from the view of the university researchers, are presented and reflected upon in this paper. The implications of using action research for the professional growth of beginning teachers are also discussed

Implementing a context-based environmental science unit in the middle years: Teaching and learning at the creek

Engaging middle-school students in science continues to be a challenge in Australian schools. One initiative that has been tried in the senior years but is a more recent development in the middle years is the context-based approach. In this ethnographic study, we researched the teaching and learning transactions that occurred in one 9th grade science class studying a context-based Environmental Science unit that included visits to the local creek for 11 weeks. Data were derived from field notes, audio and video recorded conversations, interviews, student journals and classroom documents with a particular focus on two selected groups of students. This paper presents two assertions that highlight pedagogical approaches that contributed to learning. Firstly, spontaneous teaching episodes created opportunities for in-the-moment questioning by the teacher that led to students’ awareness of environmental issues and the scientific method; secondly, group work using flip cameras afforded opportunities for students to connect the science concepts with the context. Furthermore, students reported positively about the unit and expressed their appreciation for the opportunity to visit the creek frequently. This findings from this study should encourage teachers to take students into the real-world field for valuable teaching and learning experiences that are not available in the formal classroom