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Karthigeyan Subramaniam 《Research in Science Education》2013,43(2):687-709
This study explores five minority preservice teachers’ conceptions of teaching science and identifies the sources of their strategies for helping students learn science. Perspectives from the literature on conceptions of teaching science and on the role constructs used to describe and distinguish minority preservice teachers from their mainstream White peers served as the framework to identify minority preservice teachers’ instructional ideas, meanings, and actions for teaching science. Data included drawings, narratives, observations and self-review reports of microteaching, and interviews. A thematic analysis of data revealed that the minority preservice teachers’ conceptions of teaching science were a specific set of beliefs-driven instructional ideas about how science content is linked to home experiences, students’ ideas, hands-on activities, about how science teaching must include group work and not be based solely on textbooks, and about how learning science involves the concept of all students can learn science, and acknowledging and respecting students’ ideas about science. Implications for teacher educators include the need to establish supportive environments within methods courses for minority preservice teachers to express their K-12 experiences and acknowledge and examine how these experiences shape their conceptions of teaching science, and to recognize that minority preservice teachers’ conceptions of teaching science reveal the multiple ways through which they see and envision science instruction. 相似文献
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Science &; Education - 相似文献
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Summaries English In this short paper, the author looks back over the past few years at the experience gained in English schools of mixed‐ability teaching in science, and makes some personal interpretation of the lessons to be learned from that experience. It is hoped that some of these issues will be of relevance to other countries too. 相似文献
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The present study deals with a school‐based professional development trajectory for secondary science teachers, aiming at scaffolding teachers in open‐inquiry teaching for the topic of water quality. Its design was based on the leading principle of ‘guiding by scaffolding’. Seven experienced teachers participated in institutional meetings and teaching at school. The research focused on designing scaffolding tools, addressing these tools in the meetings, and implementing them in the classroom. The main research data were obtained from meetings, classroom discussions, and observations. The results indicated that the professional development trajectory has promoted teachers’ learning of scaffolding students in open inquiry, especially the ability to know when and how to give students a well‐balanced combination of ‘structure’ for open‐inquiry learning and sufficient ‘space’ for that. The implications for science teacher education are discussed. 相似文献
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Lin Zhang 《Science & Education》2016,25(7-8):897-915
Inquiry-based science teaching has been advocated by many science educational standards and reports from around the world. Disagreements about and concerns with this teaching approach, however, are often ignored. Opposing ideas and conflicting results have been bouncing around in the field. It seems that the field carries on with a hope that someday they can reconcile. Unfortunately, over half a century, the opposing views have never been reconciled. Rather, they have become clearly divided, as shown in a recent debate. As such, this article intends to serve as a bridge between people holding different views and to identify key disagreements that have been sustaining the tension. The purpose is to improve science education. Suggestions for future research are also provided for a discussion. 相似文献
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Ozgul Yilmaz-Tuzun 《Journal of Science Teacher Education》2008,19(2):183-204
In this study, a Beliefs About Teaching (BAT) scale was created to examine preservice elementary science teachers’ self-reported
comfort level with both traditional and reform-based teaching methods, assessment techniques, classroom management techniques,
and science content. Participants included 166 preservice teachers from three different US universities. Analyses revealed
significant correlations among participants’ confidence level with assessment techniques, classroom management, teaching methods,
and science content and number of science methods and science content courses taken. A significant difference was observed
among the students enrolled at each university. Overall, study participants felt more comfortable teaching biology concepts
than teaching chemistry concepts, physics concepts, or both. 相似文献
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Richard P. Hechter 《Journal of Science Teacher Education》2011,22(2):187-202
This study investigated contextual changes in perceptions of science teaching self-efficacy through pre-, post- and retrospective
administrations of the Science Teaching Expectancy Belief Instrument (STEBI-B) among preservice elementary teachers when exposed
to a science teaching methods course. Findings revealed that the number of postsecondary science courses completed, and prior
school science experiences had a significant main effect on personal science teaching efficacy (PSTE) but not science teaching
outcome expectancy (STOE). There was no evidence for significant interaction effects between variables on both efficacy subscales.
The implications of this study relate to organization, structure, and dynamics of elementary science teacher preparation. 相似文献
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Hassan H. Tairab 《Research in Science & Technological Education》2013,31(2):235-250
This study explored views held by pre-service and in-service science teachers regarding the nature of science and technology particularly: (a) the characteristics of science and technology; (b) the aim of science and scientific research; (c) the characteristics of scientific knowledge and scientific theories; and (d) the relationship between science and technology. The views held by science teachers at pre-service and in-service levels were assessed using a questionnaire. The findings revealed that generally science teachers at both pre-service and in-service levels showed similar views in relation to the nature of science and technology. While the participants displayed mix views regarding science as content oriented or process oriented, technology was viewed as an application of science. Implications of these views for classroom teaching and learning are presented. 相似文献
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This study aims to explore preschool teachers’ attitudes toward science teaching and its impact on classroom practices through the frequency of science activities provided in the classroom. In addition, the study investigates if their attitudes are related to factors such as educational level, years of teaching experience, and the school type they work in. The present research was conducted with 292 preschool teachers who work in public and private schools in different districts of Ankara, Turkey. The data were collected by administering the Early Childhood Teachers’ Attitudes toward Science Teaching Scale. Our analyses indicate that there is a significant but weak link between preschool teachers’ attitudes toward science teaching and the frequency of science activities that they provide in the classroom. Further, while teachers’ characteristics such as educational level and experience are found to play an insignificant role on the overall measures of the scale, type of school appears to be a major factor in explaining the attitudes toward science teaching. 相似文献
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Florida and Puerto Rico Secondary Science Teachers’ Knowledge and Teaching of Climate Change Science
Benjamin C. Herman Allan Feldman Vanessa Vernaza-Hernandez 《International Journal of Science and Mathematics Education》2017,15(3):451-471
Misconceptions about climate change science are pervasive among the US public. This study investigated the possibility that these misconceptions may be reflective of science teachers’ knowledge and teaching of climate change science. Florida and Puerto Rico secondary science teachers who claim to teach extensively about climate change were surveyed in regard to their conceptions of climate change science and the climate change-related topics they teach. Results show that many teachers hold naïve views about climate change (e.g. that ozone layer depletion is a primary cause of climate change) and climate change science (e.g. that it must be based on controlled experiments for it to be valid). In addition, teachers in both groups neglect crucial topics such as how evidence for climate change is developed and the social, political, and economic dimensions of climate change. Our results suggest the need for teachers to understand how to teach climate change and the nature of climate change science using authentic contexts that promote effective socioscientific decision-making and climate change mitigation. 相似文献
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Benny Hin Wai Yung Yan Zhu Siu Ling Wong Man Wai Cheng Fei Yin Lo 《International Journal of Science Education》2013,35(14):2435-2461
Capitalizing on the comments made by teachers on videos of exemplary science teaching, a video-based survey instrument on the topic of ‘Density’ was developed and used to investigate the conceptions of good science teaching held by 110 teachers and 4,024 year 7 students in Hong Kong. Six dimensions of good science teaching are identified from the 55-item questionnaire, namely, ‘focussing on science learning’, ‘facilitating students’ understanding’, ‘encouraging students’ involvement’, ‘creating conducive environment’, ‘encouraging active experimentation’ and ‘preparing students for exam (PSE)’. Significant gaps between teachers’ and students’ conceptions on certain dimensions have been revealed. The inconsistency on the dimension ‘PSE’ is particularly evident and possible reasons for the phenomenon are suggested. This study raises the important questions of how the gap can be addressed, and who is to change in order to close the gaps. Answers to these questions have huge implications for teacher education and teacher professional development. 相似文献
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Julianne M. Coleman Erin M. McTigue Laura B. Smolkin 《Journal of Science Teacher Education》2011,22(7):613-643
The purpose of this study was to obtain data on United States K-5 elementary school teachers’ self-reported instructional
practices with graphical representations. Via an electronic survey, 388 elementary teachers, from throughout the US, reported
about their teaching of the interpretation and the production of graphics within science. The main findings indicate that:
(1) pointing to or referring to graphical representations in books (92% of respondents) was the most frequently used instructional
practice across the disciplines and grade levels; (2) five of nine graphical representations (over 90%) were more frequently
used in science instruction than in other content areas, and (3) students’ graphical productions involving drawings, labeling,
and oral and written explanations were very infrequent. The findings indicate that while teachers may tacitly use graphics
within science instruction, they may not be explicitly teaching about this visual form of communication. 相似文献
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Sedat Ucar 《Journal of Science Education and Technology》2012,21(2):255-266
Every aspect of teaching, including the instructional method, the course content, and the types of assessments, is influenced
by teachers’ attitudes and beliefs. Teacher education programs play an important role in the development of beliefs regarding
teaching and learning. The purpose of the study was to document pre-service teachers’ views on science, scientists, and science
teaching as well as the relations between these views and the offered courses over several years spent in an elementary science
teacher training program. The sample consisted of 145 pre-service elementary science teachers who were being trained to teach
general science to students in the 6th through 8th grades. The research design was a cross-sectional study. Three different
instruments were used to collect the data, namely, the “Draw a Scientist Test”, “Draw a Science Teacher Test”, and “Students’
Views about Science” tests. The elementary science teacher training program influenced pre-service science teachers’ views
about science, scientists and science teaching to different degrees. The most pronounced impact of the program was on views
about science teaching. Participants’ impressions of science teaching changed from teacher-centered views to student-centered
ones. In contrast, participants’ views about scientists and science did not change much. This result could be interpreted
as indicating that science teacher training programs do not change views about science and scientists but do change beliefs
regarding teaching science. 相似文献
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Nasser S. Al-Abdali Sulaiman M. Al-Balushi 《International Journal of Science and Mathematics Education》2016,14(2):251-268
This classroom observation study explored how science teachers (N = 22) teach for creativity in grades 5–10 in Oman. We designed an observation form with 4 main categories that targeted the instructional practices related to teaching for creativity: questioning strategy, teacher’s responses to students’ ideas, classroom activities to support creativity, and whole-lesson methods that foster creativity. An open-ended survey was also designed to explore participants’ justifications for their instructional decisions and practices. The findings indicate that the overall level of teaching for creativity was low and that participants’ performance was the highest for teacher’s responses to students’ ideas category and the lowest for classroom activities to support creativity category. We observed that a teacher-centered approach with instructional practices geared toward preparing students for examinations was dominant and that these science teachers were bound to the textbook, following cookbook-style activities. Participants believed that they did not have enough time to cover the content and teach for creativity and that they were not prepared to teach for creativity. Based on these findings, we recommend that programs be developed to prepare science teachers to teach for creativity. 相似文献
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This study emerged from a consideration of how some beginning primary school teachers cope when faced with teaching science. Primary teachers typically lack science content knowledge and therefore the science pedagogical content knowledge (PCK) that enables them to teach science. Aspects of a group of beginning primary school teachers' science teaching practices were consequently examined in order to understand better the basis of their practice. In particular, science PCK and its relationship to activities that work were considered, illuminated by findings about activities that work from a separate study with practicing teachers. The main assertion arising from this study is that activities that work have a close relationship with science PCK. A number of implications for primary science curriculum emerge from this assertion, such as considerations for preservice teacher education science courses and the nature of the primary science curriculum. 相似文献
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Carolyn S. Wallace 《Journal of Science Teacher Education》2013,24(5):811-832
The purpose of this study was to investigate the influence of an integrated experiential learning and action research project on preservice science teachers’ developing ideas about science teaching, learning, and action research itself. The qualitative, interpretive study examined the action research of 10 master’s degree students who were involved in service learning with children in informal education settings. Results indicated that all of the participants enhanced their knowledge of children as diverse learners and the importance of prior knowledge in science learning. In-depth case studies for three of the participants indicated that two developed deeper understandings of science learners and learning. However, one participant was resistant to learning and gained more limited understandings. 相似文献
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This research examines the problems that religious Jewish science teachers in Israeli high schools have in coping with science subjects (such as geological time) which conflict with their religious beliefs. We do this by characterizing the philosophical approaches within Judaism that such teachers have adopted for dealing with such controversy. Thus, we surveyed 56 religious teachers using a Likert‐type questionnaire developed for this research, as well as interviewed 11 teachers to more deeply probe their approaches. In addition, we surveyed 15 religious scientists, so that we could both contrast their views with our teacher samples as well as to better understand their coping strategies when confronted by scientific topics that challenge their beliefs. Results indicated that no single philosophical approach earned overwhelming support from the teachers or scientists. Instead, most of the subjects relate separately to each source of possible conflict in accordance with the philosophical approach that appears to be the most fruitful for resolving such conflicts. Moreover, both the scientists and the teachers felt less conflicted toward the specific subject of geological time, in comparison to issues connected to creation of the earth and (especially) evolution. The teachers did differ from the scientists in their preference toward philosophical approaches which help them better integrate the domains of science and religion. Based on our findings, we are able to suggest a set of strategies to help teachers overcome their difficulties in teaching ‘controversial’ science topics to a religiously oriented student population. 相似文献
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Edy H. M. Shahali Lilia Halim David F. Treagust Mihye Won A. L. Chandrasegaran 《Research in Science Education》2017,47(2):257-281
This study investigated the understanding of science process skills (SPS) of 329 science teachers from 52 primary schools selected by random sampling. The understanding of SPS was measured in terms of conceptual and operational aspects of SPS using an instrument called the Science Process Skills Questionnaire (SPSQ) with a Cronbach’s alpha reliability of 0.88. The findings showed that the teachers’ conceptual understanding of SPS was much weaker than their practical application of SPS. The teachers’ understanding of SPS differed by their teaching qualifications but not so much by their teaching experience. Emphasis needs to be given to both conceptual and operational understanding of SPS during pre-service and in-service teacher education to enable science teachers to use the skills and implement inquiry-based lessons in schools. 相似文献
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Karthigeyan Subramaniam 《Journal of Science Education and Technology》2016,25(4):527-540
This paper describes a qualitative study that investigated the nature of the participation structures and how the participation structures were organized by four science teachers when they constructed and communicated science content in their classrooms with computer technology. Participation structures focus on the activity structures and processes in social settings like classrooms thereby providing glimpses into the complex dynamics of teacher–students interactions, configurations, and conventions during collective meaning making and knowledge creation. Data included observations, interviews, and focus group interviews. Analysis revealed that the dominant participation structure evident within participants’ instruction with computer technology was (Teacher) initiation–(Student and Teacher) response sequences–(Teacher) evaluate participation structure. Three key events characterized the how participants organized this participation structure in their classrooms: setting the stage for interactive instruction, the joint activity, and maintaining accountability. Implications include the following: (1) teacher educators need to tap into the knowledge base that underscores science teachers’ learning to teach philosophies when computer technology is used in instruction. (2) Teacher educators need to emphasize the essential idea that learning and cognition is not situated within the computer technology but within the pedagogical practices, specifically the participation structures. (3) The pedagogical practices developed with the integration or with the use of computer technology underscored by the teachers’ own knowledge of classroom contexts and curriculum needs to be the focus for how students learn science content with computer technology instead of just focusing on how computer technology solely supports students learning of science content. 相似文献