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1.
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   

2.
The National Statement on Technology Education will soon be released in Australia. The statement advocates adesign,make andappraise approach to technology education. The document includes Year One children and provides exemplars of curriculum activities for early childhood children. Although much curriculum development in technology education for primary and early childhood has taken place in the UK, little research has been conducted within the early childhood area in Australia. This paper describes a study which sought to investigate how thedesign,make andappraise approach could be implemented within early childhood using existing materials, procedures and teaching programmes. In particular, the pre-school programme was considered to see if the approach was suitable for young children, and if girls could be encouraged into this newly defined area of study. Specializations: early childhood science education, early childhood technology education.  相似文献   

3.
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   

4.
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   

5.
This paper describes the development and evaluation of a course in physiotherapy whereby the physics fundamental to the modalities of cold, heat and ultrasound therapies was integrated in lectures and actual physiotherapy activities. The design of the course is described together with the perceptions of physiotherapy students regarding the organisation of the course, safety aspects and how well the integration contributed to their understanding of the physics involved in electrotherapy. Specialization: Physics education. Specialization: electrotherapy. Specializations: Diagnosis of student learning difficulties and teaching for conceptual change, technology education, curriculum evaluation. Specializations: Material science, isotope studies, physics education.  相似文献   

6.
Concluding comments An an ‘action research’ project, science curriculum development at St Columba's is ongoing as is the total school curriculum development. An outline of the development in science has been presented here to:invite comment from science educators in order to help define future directions in curriculum development; tostimulate further research in the area of curriculum development for a ‘Science for All’, and tostimulate debate about what school science, especially junior secondary science, should be.  相似文献   

7.
This paper describes a project in the School of Chemistry at The University of Melbourne. During 1992 thirty hours of videotapes were taken of students doing quantitative volumetric work in first year laboratories. These were viewed to find out what problems students encountered and what interactions they had with other students and with demonstrators. The data were logged on a Hypercard stack and novel visual images were produced to map student activity, both qualitatively and quantitatively. These data contributed to the design of a multimedia learning package which students worked through at the beginning of 1993. Video data of their laboratory performance after this intervention provides evidence of improved performance. Specializations: academic development in the sciences, evaluation of computer-based learning materials. Specializations: physical chemistry, chemical education at tertiary level. Specializations: design and development of computer-based learning materials. Specializations: electrochemistry, general physical chemistry at secondary and tertiary level. Specializations: chemical education at secondary and tertiary level, theoretical chemistry.  相似文献   

8.
Technology encompasses the goods and services which people make and provide to meet human needs, and the processes and systems used for their development and delivery. Although technology and science are related, a distinction can be made between their purposes and outcomes. This paper considers four possible approaches to teaching students about the relationship between technology and science. Atechnology-as-illustration approach treats technology as if it were applied science; artefacts are presented to illustrate scientific principles. Acognitive-motivational approach also treats technology as applied science, but presents technology early in the instructional sequence in order to promote student interest and understanding. In anartefact approach, learners study artefacts as systems in order to understand the scientific principles which explain their workings. Finally, atechnology-as-process approach emphasises the role of technological capability; in this approach, scientific concepts do not have privileged status as a basis for selecting curriculum content. Specializations: science and technology education, educational evaluation, measurement of attitudes and interests.  相似文献   

9.
A questionnaire survey of 300, 14 and 15 year-old pupils in England and Spain was carried out to investigate pupils' general ideas about the process of buring and their ideas about specific types of combustion, using open-ended and structured response questions. Pupils' responses were analysed and categories were defined from a classification scheme previously reported by Andersson (1990). A possible model for progression of pupils' ideas about combustion is discussed. Specialization: science teacher education. Specializations: Problem-solving, pupils' alternative concepts, initial teacher education. Specializations: Environmental education, science teacher development (international).  相似文献   

10.
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   

11.
This paper compares the performances of female and male secondary students in the 1991 and 1992 Australian National Chemistry Quizzes. Male students consistently achieved a higher mean score in all Year groups (7 to 12), even though the numbers of female and male entrants were approximately equal. Implications for class tests and assessment tasks are addressed. Specializations: chemical education, environmental science. Specialization: chemical education Specializations: chemical education, analytical chemistry.  相似文献   

12.
Conclusion In the papers presented one can detect a number of major areas of concern. The theorists like Shayer are largely concerned with the development and refinement of frameworks for studying cognitive development. Their ultimate purposes varied from reconstructing the entire field of science education, to accelerating cognitive development, to changing the ‘alternative frameworks’ of children. In essence, they seek totailor the teaching-learning process in accordance with a theoretical blue print. Those who see the problems as more content and context specific would prefer to chip away at particular topics which create teaching difficulties, thereby contributing to the improvement of practice in a more direct, piecemeal fashion. They could perhaps be described astinkers. So we havetinkers andtailors. Thesoldiers amongst us would equip teachers with the weapons needed to attack their own problems directly. They are working away at developing techniques Oh yes, thespies are the moles like me who are concerned with uncovering the secrets of classroom life, with identifying the structures, patterns and processes which characterise classroom interaction, and with the describing and monitoring the ‘theories in action’ and strategies which skilled practitioners have evolved to cope with the problems of promoting cognitive development in classroom settings. The ultimate question then, is what contribution can the tinkers, tailors, soldiers and spies make to science education?  相似文献   

13.
Existing instruments in classroom environment research have limitations when subgroups are investigated or case studies of individual students conducted. This study reports the validation and development of a personal form of the Science Laboratory Environment Inventory which is better suited to such studies. Further, systematic differences between scores on the class and personal forms of the instrument are reported along with comparisons of their associations with inquiry skill and attitudinal outcomes. Specializations: Science education, Preservice science teacher education. Specializations: Learning environments, science education, educational evaluation, curriculum. Specializations: Curriculum, science education, science laboratory teaching.  相似文献   

14.
A study of students from a primary school and its local secondary school was conducted to investigate students' relative interests in geology and biology during the years prior to Year 10. Students from Years 1, 3, 5, 7 and 9 were interviewed, using an innovative interview technique, and results show that interest in both subjects appears to be fairly evenly distributed throughout all years. This paper reports on the study conducted and illustrates the success of the interview technique developed to accommodate all students, especially those from younger year levels. Specializations: science teacher education, biology teacher education. Specializations: economic geology, mineralogy, geological education. Specializations: primary science education.  相似文献   

15.
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.
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.  相似文献   

17.
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   

18.
Much Catholic school and church rhetoric suggests that Catholic schools possess distinctive learning environments. Research into this aspect of Catholic schooling has been hampered by the lack of an appropriate assessment instrument. By drawing on contemporary church literature, the perceptions of personnel involved in Catholic education and existing classroom environment questionnaires, a new instrument was developed to assess student perceptions of classroom psychosocial environment in Catholic schools. The use of this instrument in 64 classrooms in Catholic and Government schools indicated significant differences on some scales. The distinctive nature of Catholic schooling did not extend to all classroom environment dimensions deemed important to Catholic education. Specializations: Catholic education, learning environments. Specializations: conceptual change in students, science teacher professional development, scientific reasoning, learning environments. Specializations: learning environments, science education, educational evaluation, curriculum.  相似文献   

19.
Australia's changing political, social and economic agendas have triggered a critical analysis of school curriculum. Part of this consideration has been concern over the future of science education within the context of senior schooling. Following the completion of the Senior Science Future Directions Project commissioned by the Queensland Board of Senior Secondary School Studies, fifteen issues were identified. These issues, grouped by the needs of the science disciplines, society and the individual student, are discussed with the view of understanding the future design of senior science syllabuses. Specializations: biology teacher education, science curriculum development. Specializations: professional development, curriculum design and evaluation. Specializations: professional development, science teaching.  相似文献   

20.
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.  相似文献   

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