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1.
The preservice training of primary teachers is an opportunity to provide positive experiences which may ameliorate students'
anxiety about science and science teaching, and enhance their beliefs that they may become effective science teachers. The
previous and current science related experiences, and beliefs, of an intake of primary teachers participating in an introductory
science content subject, were explored. Matter and energy concepts were major content components of the subject. Data were
collected from pre- and post-test administrations of psychometric tests designed to measure students' science teaching self-efficacy,
science related attitudes, interest in science teaching, and preferred learning environment. A randomly selected sample of
students was interviewed at the commencement and finish of the subject. One third of the sample was assigned to a study group
in which a constructivist approach to laboratorys sessions was adopted. The remainder of the sample experienced a more traditional
transmissive format in laboratory sessions. Analysis of the quantitative data revealed no group differences in self-efficacy.
Interesting contrasts between students evident in the data from the interviews facilitated the articulation of tentative assertions
about the causative factors that may influence the development of students' sense of self-efficacy and possible science related
anxiety.
Specialisations: science teacher education, conceptual change, scientific reasoning.
Specialisations: science teacher education, conceptual change, scientific reasoning. 相似文献
2.
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
3.
Peter Aubusson 《Research in Science Education》1994,24(1):21-30
This paper reports on a study of the mismatch between science teachers' stated purposes and their actual teaching of science
in a secondary school. Factors affecting teachers' practices include their personal beliefs about teaching, learning and the
purposes of science education, the school program and the school culture.
Specializations: science and technology education, professional development. 相似文献
4.
MS. Christine Chin DRS. Ngoh-Khang Goh Lian-Sai Chia Kam-Wah Lucille Lee DR. Kay-Cheng Soh 《Research in Science Education》1994,24(1):41-50
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. 相似文献
5.
It is argued that the introduction of many new curricular with their associated teaching practices have failed because the
beliefs, views and attitudes of teachers have been ignored. This paper reports the implications of the initial belicfs of
primary school teachers involved in a professional development program about science and technology education. In particular,
a mismatch between teachers views of learning and teaching is identified and analysed.
Specializations: Science education, professional development
Specialisation: primary science and technology education 相似文献
6.
Concern is increasingly being expressed about the teaching of higher order thinking skills in schools and the levels of understanding
of scientific concepts by students. Metaphors for the improvement of science education have included science as exploration
and science as process skills for experimentation. As a result of a series of studies on how children relate evidence to their
theories or beliefs, Kuhn (1993a) has suggested that changing the metaphor to science as argument may be a fruitful way to
increase the development of higher order thinking skills and understanding in science instruction. This report is of a case
study into the coordination of evidence and theories by a grade 7 primary school student. This student was not able to coordinate
these elements in a way that would enable her to rationally consider evidence in relation to her theories. It appeared that
the thinking skills associated with science as argument were similar for her in different domains of knowledge and context.
Specializations: science learning, scientific reasoning, learning environments, science teacher education.
Specializations: cognition, reasoning in science and mathermatics. 相似文献
7.
The potential of informal sources of science learning to supplement and interact with formal classroom science is receiving
increasing recognition and attention in the research literature. In this study, a phenomenographic approach was used to determine
changes in levels of understanding of 27 grade 7 primary school children as a result of a visit to an interactive science
centre. The results showed that most students did change their levels of understanding of aspects of the concept “sound”.
The study also provides information which will be of assistance to teachers on the levels of understanding displayed by students
on this concept.
Specializations: informal science learning, science curriculum
Specializations: science education, science teacher education, conceptual change, learning environments. 相似文献
8.
Dr Tim Hardy Ms Margaret Bearlin Dr Valda Kirkwood 《Research in Science Education》1990,20(1):142-151
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. 相似文献
9.
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. 相似文献
10.
John Loughran 《Research in Science Education》1992,22(1):273-282
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. 相似文献
11.
Gilda Segal 《Research in Science Education》1992,22(1):348-357
To address expected negative attitudes to studying science and technology held by primary school student teachers, we devised
a learning model which combined cooperative group strategies with a learners' questions approach in a context which allowed
for pluralism in methodology and epistemology. The model was used in a teacher education elective subject studied by final
year Diploma of Teaching students at the University of Technology, Sydney. We found that some students were inexperienced
in participating in the planning and design of their learning and that for many students, being responsible for their learning
in a science and technology context aroused reactions of alarm and determined avoidance so that alternative pathways for achievement
in the subject had to be offered. Some students reported feelings of satisfaction in their successful learning despite initial
anxiety, low confidence or indifference.
Specializations: children's learning in science and technology; inclusion; contexts, teaching models. 相似文献
12.
Six beginning primary school teachers pioneering the Interactive Teaching approach to science were studied in their first
year of teaching. Interviews with the beginning teachers revcaled that they faced several obstacles to the implementation
of the interactive teaching of science. These included lack of collegial support, lack of feedback on their teaching, difficulty
assessing the learning of their pupils, and the differences between the culture of learning of the alternative science pedagogy
and that of their pupils. By the end of the year, teachers had reconstructed the alternative science pedagogy in ways that
reduced these difficulties. The interviews also provided evidence that ongoing support by teachers and teacher-educators versed
in the alternative pedagogy can make beginning teacher's implementation of the Interactive Teaching of science less difficult.
Specializations: physics education, beginning teachers.
Specializations: misconceptions, assessment. 相似文献
13.
Dr J. R. Baird Associate Professor R. F. Gunstone Mr C. Penna Professor P. J. Fensham Professor R. T. White 《Research in Science Education》1990,20(1):11-20
This paper is based on findings from a three year collaborative action research project on classroom teaching and learning.
The research, which involved 33 teachers, over two thousand students from six schools, and the authors, centred on exploring
how various features of the classroom context influence teaching and learning processes. We interpret project findings as
indicating the importance of balance between cognition and affect for effective teaching and learning. We advance the notion
of challenge as a way of conceptualising this balance. Challenge comprises a cognitive/metacognitivedemand component and an affectiveinterest component. Nine major features of a teaching/learning event were found to interact to influence these cognitive and affective
components of challenge.
Specializations: Collaborative research on science teaching and learning; staff development and school improvement; quality of science education.
Specializations: Learning and teaching science; pre-service teacher education.
Specializations: teacher development in science education; technology education.
Specializations: Science and teachnology curriculum, environmental education, educational disadvantage.
Specializations: learning theory, probing of understanding, conceptual change. 相似文献
14.
Olugbemiro J. Jegede James C. Taylor Peter Akinsola Okebukola 《Research in Science Education》1991,21(1):198-207
Most of the curriculum design models within the technical-scientific approach utilise the rational and sequential process
of designing and inter-relating the various elements of the design process. While this procedure may be efficient and adequate
for conventional education in which the designers are professional science educators, there is doubt if it satisfies the particular
needs of distance education.
The experience accumulated through a multi-disciplinary team approach to distance learning courseware development for higher
education at the University of Southern Queensland Distance Education Centre motivated this study which primarily focused
on a search for an alternative approach to curriculum development with a more satisfactory functional value.
Using selected units in Engineering as a focus, an experiment was designed in which a variant of the classical Wheeler model
was used. This paper reports the results of this experiment. The implications for contemporary curriculum development initiatives
in science especially within distance education settings are pointed out.
Specializations: science education, learning strategies, curriculum development, instructional design, research and development in distance
education.
Specializations: Cognitive Science, curriculum development, instructional design, expert systems, research and development in distance education.
Specializations: science education, learning strategies, curriculum development, instructional design, research and development in distance
education. 相似文献
15.
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. 相似文献
16.
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
17.
The premise that underlies the pre-service science teacher education program at Monash University is the need to focus on
the nature of learning in ways that encourage student-teachers to reconsider their conceptions of learning and how this relates
to their view of teaching. The purpose of teaching portfolios is to act as a prompt for student-teachers to reconsider these
conceptions and as a way of helping them to better articulate their professional knowledge. The Science (Stream 3) student
teachers construct a portfolio of teaching strategies, episodes, ideas, etc. that demonstrate how they see their role as science
teachers. The portfolio is ungraded, openended and organised as a dynamic assessment task, not just a static end product.
This paper reports on student-teachers' understanding of, and approach to portfolios as they come to understand its purpose
and value.
Specializations: chemistry and science education, technology and industry links with science curriculum
Specializations: science education, reflection, curriculum and evaluation 相似文献
18.
The study presented in this paper integrates data from four combined research studies, which are both qualitative and quantitative in nature. The studies describe freshman science student teachers' beliefs about teaching and learning. These freshmen intend to become teachers in Germany in one of four science teaching domains (secondary biology, chemistry, and physics, respectively, as well as primary school science). The qualitative data from the first study are based on student teachers' drawings of themselves in teaching situations. It was formulated using Grounded Theory to test three scales: Beliefs about Classroom Organisation, Beliefs about Teaching Objectives, and Epistemological Beliefs. Three further quantitative studies give insight into student teachers' curricular beliefs, their beliefs about the nature of science itself, and about the student- and/or teacher-centredness of science teaching. This paper describes a design to integrate all these data within a mixed methods framework. The aim of the current study is to describe a broad, triangulated picture of freshman science student teachers' beliefs about teaching and learning within their respective science teaching domain. The study reveals clear tendencies between the sub-groups. The results suggest that freshman chemistry and—even more pronouncedly—freshman physics student teachers profess quite traditional beliefs about science teaching and learning. Biology and primary school student teachers express beliefs about their subjects which are more in line with modern educational theory. The mixed methods approach towards the student teachers' beliefs is reflected upon and implications for science education and science teacher education are discussed. 相似文献
19.
Dispositions supporting the teaching of science as structured inquiry by four elementary candidates are presented. Candidates
were studied during student teaching based on their positive attitudes toward teaching science with reform-based materials
in their methods course. Personal learning histories informed their attitudes, values, and beliefs about the teaching and
learning of science through structured inquiry. Supportive dispositions included curiosity and questioning, investigating
first-hand, learning together, and active learning. These dispositions supported early science teaching despite candidates
limited science content knowledge, and may contribute to candidates’ further learning of science. 相似文献
20.
Dr Beverley F. Bell Dr Valda M. Kirkwood Mr John D. Pearson 《Research in Science Education》1990,20(1):31-40
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. 相似文献