共查询到20条相似文献,搜索用时 31 毫秒
1.
Dr Denis Goodrum MS Judith Cousins Dr Adrianne Kinnear 《Research in Science Education》1992,22(1):163-169
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. 相似文献
2.
Gender-inclusive technology materials for the primary school: A case study in curriculum development
Dr. Adrianne Kinnear Dr. David Treagust Dr. Leonie Rennie 《Research in Science Education》1991,21(1):224-233
This paper describes how an idea for technology education materials developed into a process for producing unique curriculum
modules for teaching technology in a gender-inclusive way to primary children. Using a case-study format, the paper describes
the interaction between participants, the sequential evolution of the materials themselves and the degree to which success
was achieved in terms of the original goals. The study demonstrates how an awareness of gender bias needs to be a feature
from the earliest stages of curriculum development, through to the trialling and modification stages. The curriculum materials
were a product of effective cooperation between teachers, science educators and community representatives. They utilise a
“process” approach to the teaching of technology and in this presentation, we demonstrate how this same approach is a useful
framework for describing this particular curriculum development.
Specializations: primary science and technology education, gender issues.
Specializations: diagnosis of student learning and teaching for conceptual change, technology education, curriculum evaluation.
Specializations: affective aspects of science and technology education, gender issues. 相似文献
3.
Ms Kathryn Paige 《Research in Science Education》1994,24(1):246-252
This paper outlines the findings of a study which involved expert/committed female primary science teachers and examined their
perceptions of the main factors that led to the development of their expertise. The study focuses on the women's formal education,
early influences outside formal education and their recent training and development. The last of these is the main one identified
in research literature as having influenced people to develop an interest in teaching primary science.
Specializations: training and development, primary science and technology curriculum development. 相似文献
4.
Over the past two years, Florida State University's Science Education Program and Sabal Palm Elementary have collaborated
to develop a PPS. The formation of the Sabal Palm PPS was not based upon a predetermined design nor has one group served as
an authority to direct how the PPS ought to operate. The success of this model relies on PPS participants working collaboratively
to establish goals and plans for actions to be taken to support teacher-learning. The Sabal Palm PPS continues to evolve as
dynamic model for creating a center for teacher and student learning. The purpose of this paper is to discuss our involvement
in the formation a PPS and implications for enhancing teacher education programs.
Specializations: professional practice school development, teacher research, primary science education
Specializations: environmental science, primary science education. 相似文献
5.
Alison Grindrod Andrea Klindworth Dr. Marjory-Dore Martin Russell Tytler 《Research in Science Education》1991,21(1):151-160
In 1990, a large proportion of third year primary trainee teachers at Victoria College had observed or taught very few or
no science lessons during the first two years of their course. The students felt that a lack of content knowledge, a crowded
school curriculum, and problems associated with managing resources and equipment, were the main factors contributing to the
low level of science being taught in schools. By the end of their third year significantly more students had taught science
than after the second year. There was also a change in approach to teaching science with more practical activities being included
than previously. The science method unit taught to the students in the third year of their course contributed to this increase.
The students considered the hands-on activities in class to have been the most effective aspect of the unit in their preparation
for the teaching of primary science.
Specializations: children's learning in science, primary teacher education.
Specializations: student understanding of biology, evaluation of formal and informal educational settings.
Specializations: gender, science and technology, environmental education.
Specializations: children's learning in science, language and science. 相似文献
6.
Professor Dr. Reinders Duit Professor Dr. Peter Häussler Dr. Roland Lauterbach Professor Dr. Helmut Mikelskis Professor Dr. Walter Westphal 《Research in Science Education》1992,22(1):106-113
This paper outlines the design of a physics textbook that addresses issues of gender-inclusive physics teaching, STS and constructivism.
Difficulties of addressing these issues in a textbook for normal classes, which has to compete with other textbooks on the
market will be discussed.
Specializations: constructivist approaches in science education research and practice.
Specializations: gender issues in science instruction.
Specializations: primary education, integrated science.
Specializations: STS, phenomenological oriented physics instruction.
Specializations: peace education within science education. 相似文献
7.
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. 相似文献
8.
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
9.
Mr. Ray Peterson Associate Professor David Treagust 《Research in Science Education》1992,22(1):323-330
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. 相似文献
10.
Dr Rod Francis 《Research in Science Education》1994,24(1):373-374
Specializations: primary and secondary science and technology. 相似文献
11.
What is written in reports to parents can provide insight into the perceptions of teachers of the various areas of the primary
school curriculum. This paper reports the first stage of a research project focussing on reports as a guide to teachers' views
of the relative importance of, and desired student outcomes in, key areas of the curriculum. Teacher comments in the end-of-the-year
reports in one primary school were analysed.
Specializations: science education, teacher education.
Specializations: science education, teacher education. 相似文献
12.
MS Yvonne Zeegers 《Research in Science Education》1994,24(1):358-365
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. 相似文献
13.
Deborah Corrigan Peter Fensham Jennifer Sheed Rosemary Hutchinson 《Research in Science Education》1992,22(1):403-405
Conclusion The difficulty of sharing meaning of curriculum intentions between different groups is highlighted in this study. The acceptance
of the novel features of the Chemistry Study Design is mixed. The longitudinal nature of the study helped to identify the
difficulty teachers had in understanding the meaning of these novel features although the experiences of teaching units in
the VCE chemistry course have enabled some teachers to shift in their construction of the meaning of the words and messages
around them.
Specializations: chemistry and science education, technology and industry links with sicence in schools.
Specializations: science and technology curriculum, environmental education, educational disadvantage.
Specializations: curriculum change, science career paths.
Specializations: science education, computers in schools. 相似文献
14.
This study employs narrative methods to give a holistic view of the experiences of five mature age preservice teachers in
a semester unit of science education. The unit was designed to help teachers examine and make explicit their ideas about science
and science teaching and consider ways in which they might put those ideas into practice. The pivotal theme, around which
the teachers' experiences could be organised, was found to be learning science. The preservice teachers expressed a need for
a supportive learning environment in which concepts were built gradually and introduced using concrete examples. Previous
science experience was found to be a major influence on the attitudes the participants brought to the present course. A lack
of previous experience or negative past experiences were a major cause of anxiety. Gender was also important as it had limited
the science experiences available to some participants in the past and continued to influence the way they participated in
classes during the semester.
Specializations: primary science, science teacher education, primary school field experience.
Specializations: formation of teachers' knowledge, leadership, teacher change, school reform. 相似文献
15.
Beverley Jane Associate Professor Marjory-Dore Martin Russell Tytler 《Research in Science Education》1991,21(1):188-197
A study of primary teacher trainees' perceptions and attitudes to science in 1990, has been useful in designing a semester
unit aimed at increasing the confidence and interest of first year students at Victoria College. This paper outlines the background
survey and discusses some, of the results and how they were used to develop the Professional Readiness Study-Understanding
Science. This unit attempts to change attitudes by focussing on metacognition and encourages students to understand and control
their own learning. Discussion involves teaching and learning strategies and alternative assessment approaches including the
student's journal-the Personal Record.
Specializations: technology for learning, health education.
Specializations student understanding of biology, particularly genetics, evaluation.
Specializations: children's learning in science, language in science. 相似文献
16.
The general aim of our human nutrition project is to develop a health education model grounded in ‘everyday’ or ‘situated’
cognition (Hennessey, 1993). In 1993, we began pilot work to document adult understanding of human nutrition. We used a HyperCard
stack as the basis for a series of interviews with 50 adults (25 university students, and 25 adults from offcampus). The interviews
were transcribed and analysed using the NUDIST computer program. A summary of the views of these 50 adults on selected aspects
of human nutrition is presented in this paper.
Specializations: educational technology and the teaching-learning process, public understanding of science and technology.
Specializations: educational technology, mathematics education. 相似文献
17.
This research was carried out over a period of ten months with children in Grades 2 and 3 (aged 7 and 8) who were participating
in a sequence of technology activities. Since the introduction into Victorian primary schools ofThe Technology Studies Framework P-10 (Crawford, 1988), more teachers are including technology studies in their classrooms and by so doing may assist children's
understanding of science concepts. Children are being exposed to science phenomena related to the technology activities and
Technology Studies may be a way of providing children with science experiences. ‘Technology Studies’ in this context refers
to children carrying out practical problem solving tasks which can be completed without any particular scientific knowledge.
Participation in the technology activities may encourage children to become actively involved, thereby facilitating an exploration
of the related science concepts. The project identified the importance of challenge in relation to the children's involvement
in the technology activities and the conference paper (available from the first author) discusses particular topics in terms
of the balance between cognitive/metacognitive and affective influences (Baird et al., 1990)
Specializations: science and technology education, interest and attitudinal change.
Specialization: technology in the primary school. 相似文献
18.
This paper highlights the challenges and problems in developing an innovative K-3 science program to support teachers in the
implementation of the national Statement and Profile in science. The program has been developed by the authors in association
with the Curriculum Corporation. The paper outlines the assumptions made about teachers of young children, the role of research
in the construction of the program, and the extent to which the Statement and Profile have influenced the process. The resolution
of a number of key problems in this curriculum development is discussed: responding to teachers' needs for a base of science
discipline knowledge, developing strategies for working scientifically with very young children, and helping teachers develop
an extended understanding of the nature of science.
Specializations: early childhood science and technology education.
Specializations: primary science education, teacher education in science, adult experiences of science and technology, and curriculum development. 相似文献
19.
Unattended science and technology exhibits of both static and operational types have been an integral part of museum displays
for many years. More recently interactive exhibits in which observers are encouraged to become part of the system of exhibits
have become more common. A study was commenced to explore the impact and potential of low cost, unattended, interactive exhibitsset up singly in a normal school classroom without the distractions of a multiplicity of activities as is common in ‘science museums’. Three small groups of Grade 5/6
primary school children interacted with a ‘Falling Towers’ exhibit and their voluntary activities were recorded on videotape
for later analysis. Children appeared to state the results of their activity in ways consistent with their expectations rather
than with their most recent experience with the exhibit. The responses of girls, boys and mixed groups are reported.
Specializations: primary mathematics and science education, teaching strategies.
Specializations: science education, students' understandings of phenomena in science. 相似文献
20.
Many school students experience difficulty in conducting science investigations (Hackling & Garnett, 1991; Murphy, 1988).
Students in Western Australia have poorly developed skills of problem analysis, planning and carrying out controlled experiments,
basing conclusions only on obtained data, and recognising limitations in the methodology of their investigations. This paper
compares the work of 10 expert scientists and 10 Year 12 science students as they conducted a laboratory based investigation.
The results provide insights into expertise in science investigation skills.
Specializations: Science teacher education, development of problem-solving expertise, concept development and conceptual change, assessment
of laboratory work.
Specializations: Chemistry education, concept development and conceptual change, role of laboratory work. 相似文献