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1.
Vanessa Kind 《International Journal of Science Education》2013,35(11):1529-1562
Teachers’ subject matter knowledge (SMK) is one factor contributing to teaching ‘successfully’, as this provides a basis from which pedagogical content knowledge develops. UK‐based trainee science teachers teach all sciences to age 14 and often up to age 16. Trainees have specialist science knowledge in chemistry, physics, or biology from their degrees. Other sciences may not have been studied since school. Thus, trainee science teachers often teach ‘outside specialism’. The extent to which teaching within and outside specialism influences successful teaching, ensuring learning objectives are achieved, was investigated. The sources seventy‐one trainees use for preparing within and outside specialism science lessons for 11–14‐year‐olds and 14–16‐year‐olds and effects on teacher self‐confidence of working in these two domains were probed by questionnaire and interview. All trainees responded to open and closed questions, and Likert‐scale statements exploring preferences for teaching, self‐confidence, handling subject‐related questions within and outside specialism, and attitudes towards learning new SMK. A subgroup of 12 trainees participated in individual semi‐structured interviews. The results are counter‐intuitive: trainees teach more successful lessons outside their specialism, particularly in the early stages. This relates to using a richer range of SMK sources, including, crucially, advice from experienced colleagues. Within specialism, trainees report an inability to select appropriate knowledge and/or strategies and a sense of conflict in teaching inaccurate information. Some ‘anxious’ trainees rely heavily on extant materials for outside specialism teaching. ‘Super‐confident’ trainees able to teach any science focus on selection of appropriate instructional strategies and realise early on the need to transform SMK. 相似文献
2.
The synthesis of subject and pedagogy for effective learning and teaching in primary science education 总被引:1,自引:0,他引:1
《British Educational Research Journal》2004,30(6):819-839
The issue of science subject knowledge, and how to address the demands of this for both practising and trainee primary teachers, has constituted a core research enterprise in recent decades. The Professional Standards for Qualified Teacher Status entail considerable conceptual demands for many primary trainees. Generating meaningful causal explanations of scientific phenomena lies at the heart of both the scientific endeavour itself, and of effective classroom teaching. To focus on knowledge acquisition per se in teacher education, however, obscures the critical issue of subject‐related pedagogical knowledge that ultimately influences classroom practice. This article explores the development of both subject knowledge and subject‐related pedagogical knowledge in science education. It is informed by science education literature, as well as by a substantial body of empirical research into trainees' learning of aspects of physical science accumulated over a five‐year period. Learners' perspectives of the synthesis of subject and pedagogy raise important questions concerning the nature of teacher education. 相似文献
3.
This paper describes a case study focusing on the subject matter knowledge, pedagogical content knowledge, and beliefs about science teaching of student teachers in Turkey at the start of their university education. The topic of interest was that of teaching chemical reactions in secondary chemistry education. A written test was developed which used the research literature on potential student misconceptions with regard to different aspects of chemical reactions. Thirty beginning science student teachers were tested, with an additional eight interviews from the student teachers in the same sample. The interviews focused on student teachers’ views about how to best teach chemical reactions in lower secondary chemistry classes. The results revealed deficits in the subject matter knowledge of the student teachers. It also became obvious that the teachers in this sample held very traditional and teacher-centred beliefs when it came to chemistry teaching at the secondary level. Their teaching attitudes were geared mainly towards the acquisition of facts by pupils, and often ignored the development of process-oriented skills. Implications for science teacher education are discussed. 相似文献
4.
Melissa Glackin 《International Journal of Science Education》2016,38(3):409-433
Teaching outdoors has been established as an important pedagogical strategy; however, science classes rarely take place outside. Previous research has identified characteristics of teachers who have integrated out-of-classroom opportunities into their teaching repertoire; yet little is understood as to why teachers make these different pedagogical decisions. This paper explores the relationship between secondary science teachers’ beliefs and their pedagogical practice during a two-year professional development programme associated with the ‘Thinking Beyond the Classroom’ project. Using data from lesson observations, interviews, session questionnaires and field notes, six teacher case studies were developed from participants completing the programme. Data analysis reveals that teachers who successfully taught outside generally held social constructivist beliefs about learning and valued ‘authentic’ science opportunities. Conversely, teachers who were less successful in teaching outside generally held traditional learning beliefs and simply valued the outdoors for the novelty and potential for fun. All the case study teachers were concerned about managing student learning outside, and for the majority, their concerns influenced their subsequent pedagogical practice. The findings are discussed in detail, as are the implications for pre-service and in-service professional development programmes related to outdoor science learning. 相似文献
5.
Patricia E. Simmons Allen Emory Tim Carter Teresa Coker Brian Finnegan Denise Crockett Lon Richardson Robert Yager John Craven John Tillotson Herbert Brunkhorst Mark Twiest Kazi Hossain James Gallagher Don Duggan‐Haas Joyce Parker Fernando Cajas Qasim Alshannag Sheryl McGlamery Jerry Krockover Paul Adams Barbara Spector Tom LaPorta Bob James Kristin Rearden Kay Labuda 《科学教学研究杂志》1999,36(8):930-954
6.
Zahava Scherz Liora Bialer Bat‐Sheva Eylon 《Research in Science & Technological Education》2013,31(1):49-69
This study was carried out in the framework of continuous professional development (CPD) programmes following a CPD model aimed at promoting ‘accomplished practice’ involving: pedagogical knowledge, content knowledge, pedagogical content knowledge and scholarship of teaching. Teachers were asked to bring evidence about their practice. The context was related to the ‘Learning Skills for Science’ (LSS) programme, which advocates the explicit incorporation of high‐order learning skills into science school curricula. The main goal of the study was to test the evidence‐based LSS CPD model by investigating the impact of its related CPD programmes on participating teachers. The impact relates to teachers’ perceptions about teaching learning skills, teachers’ LSS practice, and their professional influence in the educational system. As part of the evaluation method, we developed a criterion‐based diagnostic tool and a visual representation, designed to assess a teacher’s professional profile and progression according to dimensions of ‘accomplished practice’. The diagnostic tool can be adjusted and tailored to different CPD domains. Results indicated that requiring teachers to bring evidence from practice and students’ learning enabled us to follow teachers’ progress and succeeded to improve their performances towards accomplished LSS practice. The results exemplify a synergy between CPD designed activities and the ongoing evaluation of its impact. 相似文献
7.
Teaching science as explanation is fundamental to reform efforts but is challenging for teachers—especially new elementary teachers, for whom the complexities of teaching are compounded by high demands and little classroom experience. Despite these challenges, few studies have characterized the knowledge, beliefs, and instructional practices that support or hinder teachers from engaging their students in building explanations. To address this gap, this study describes the understandings, purposes, goals, practices, and struggles of one third-year elementary teacher with regard to fostering students' explanation construction. Analyses showed that the teacher had multiple understandings of scientific explanations, believed that fostering students' explanations was important for both teachers and students, and enacted instructional practices that provided opportunities for students to develop explanations. However, she did not consistently take up explanation as a goal in her practice, in part because she did not see explanation construction as a strategy for facilitating the development of students' content knowledge or as an educational goal in its own right. These findings inform the field's understanding of teacher knowledge and practice with regard to one crucial scientific practice and have implications for research on teachers and inquiry-oriented science teaching, science teacher education, and curriculum materials development. 相似文献
8.
In this study, I, the first author as a Thai teacher educator employed self-study as a research methodology to investigate my own understandings, questions, and curiosities about pedagogical content knowledge (PCK) for teaching science student teachers and the ways I engaged student teachers in a field-based science methods course designed to help them to develop their PCK. Qualitative data gathered included: the syllabi, handouts, work submitted by student teachers, student teachers’ journal entries, my journal entries, and video recordings of my classroom teaching. Data were analysed using an inductive process to identify ways in which I attempted to enhance student teachers’ PCK. The contributions of this study are insights generated to help teacher educators think about how to support and develop student teachers’ PCK. Some of these contributions are enhancing teacher educators’ PCK for teaching science teachers, developing PCK for teaching science, and designing a science methods course in science teacher preparation programmes. 相似文献
9.
《The Journal of educational research》2012,105(1):77-81
ABSTRACT Case studies have pointed out that teachers’ disciplinary knowledge affects their pedagogy; however, the results are not consistent. There is a need for quantitative research to examine the relationship between teacher knowledge and practice, particularly in social studies where content-specific studies are mostly qualitative. The authors used history as an example and surveyed all public and private junior high school social studies teachers in Taiwan to examine if disciplinary backgrounds significantly affect teachers’ knowledge, conceptions about the discipline, and their teaching practices. Hierarchical linear modeling analyses show that disciplinary backgrounds significantly affect teachers’ subject matter knowledge and pedagogy. Evaluations of effect sizes suggest that academic backgrounds can serve as useful proxies for teacher recruitment. The results also indicate that nature-revealing courses affect teachers’ subject matter knowledge and pedagogy. 相似文献
10.
《Studying Teacher Education》2013,9(2):193-204
This paper describes a self-study research project that focused on our experiences when planning, teaching, and evaluating a course in initial teacher education. The theoretical framework of technological pedagogical content knowledge (TPACK) was used as a conceptual structure for the self-study. Our understanding of the framework in relation to our teaching practice was in focus. The principal educational goal of the course was to develop the pedagogical use of web 2.0 resources to support learning in the preschool/school context. As a result, the focus, content, form of distribution, teaching, and assessment of the course went beyond what is common in initial teacher training in Sweden. The potential of the different digital tools was explored by situated use in the design and teaching of the course. Analysis highlights the challenges and opportunities that teacher educators and student teachers may encounter while working with, and learning about, information and communication technologies to support learning. Some of the findings discussed are related to the identified challenges and opportunities for both teachers and students to integrate content knowledge, pedagogical knowledge, and technological knowledge into a TPACK. Taken-for-granted organizational and institutional assumptions about teaching, learning, and assessment in teacher education were identified in the study. 相似文献
11.
In this article we problematize the purpose of teaching science in preschool and the competences preschool teachers need in order to conduct science activities in the classroom. The empirical data were collected through an action research project with five preschool and primary school teachers (K-6). In the first section of this paper we use one situation, a floating–sinking experiment, as an illustration of how two different epistemological perspectives generate different foci on which kind of science teaching competences can be fruitful in preschool settings. In the first perspective, the central goal of science teaching is the development of the children’s conceptual understanding. With this perspective, we found that the science activities with children were unsuccessful, because their thoughts about concepts did not develop as expected, the situation even enhanced a “misconception” concerning density. Moreover, the teacher was unsuccessful in supporting the children’s conceptual learning. The second perspective uses a feminist approach that scrutinizes science, where we investigate if the floating–sinking activity contributes to a feeling of participation in a scientific context for the children and if so how the teacher promotes this inclusion. This second perspective showed that the children’s scientific proficiency benefited from the situation; they had a positive experience with density which was reinforced by the teacher. The children discovered that they had power over their own learning by using an experimental approach. On the basis of these findings, we conclude that there are competences other than subject matter knowledge that are also important when preschool teachers engage children in scientific activities. Through process-oriented work with the teacher group, we identified four concrete skills: paying attention to and using children’s previous experiences; capturing unexpected things that happen at the moment they occur; asking questions that challenge the children and that stimulate further investigation; creating a situated presence, that is, “remaining” in the situation and listening to the children and their explanations. We discuss possible ways to move preschool teachers away from their feelings of inadequacy and poor self-confidence in teaching science by reinforcing this kind of pedagogical content knowledge. 相似文献
12.
The potential of a theory of variation-framed learning study, a teacher professional development approach, to help teachers overcome curricular and pedagogical challenges associated with teaching new science curricula content was explored. With a group of Singapore teachers collaboratively planning and teaching new genetics content, phenomenographic analysis of data corpus from classroom observations, teacher meetings and interviews revealed teacher learning that manifested in the teachers’ experiences. These were captured as (1) increased degrees of student-centered pedagogy and challenges to teachers’ prior assumptions about science pedagogy, (2) increased awareness of possibilities and limitations of their beliefs about science pedagogy, and (3) emergence of new understandings about new curricular content and science pedagogy. The possibility of transformative and generative learning is also discussed. 相似文献
13.
This empirical study investigates secondary science teachers’ perspectives on science education reform in Taiwan and reflects how these teachers have been negotiating constructivist and learner-centered pedagogical approaches in contemporary science education. It also explores the challenges that teachers encounter while shifting their pedagogical focus from traditional approaches to teaching science to an active engagement in students’ learning. Multiple sources of qualitative data were obtained, including individual interviews with science teachers and teachers’ reflective journals about Confucianism in relation to their educational philosophies. Thematic analysis and constant comparative method were used to analyze the data. The findings revealed that Confucian traditions play a significant role in shaping educational practices in Taiwan and profoundly influence teachers’ epistemological beliefs and their actual classroom practice. Indeed, science teachers’ perspectives on Confucian learning traditions played a key role in supporting or obstructing their pedagogical commitments to inquiry-based and learner-centered approaches. This study draws on the literature concerning teachers’ professional struggles and identity construction during educational reform. Specifically, we explore the ways in which teachers respond to educational changes and negotiate their professional identities. We employed various theories of identity construction to understand teachers’ struggles and challenges while wrestling with competing traditional and reform-based pedagogical approaches. Attending to these struggles and the ways in which they inform the development of a teacher’s professional identity is vital for sustaining current and future educational reform in Taiwan as well as in other Eastern cultures. These findings have important implications for teachers’ professional development programs in East Asian cultures. 相似文献
14.
Research supports an explicit-reflective approach to teaching about nature of science (NOS), but little is reported on teachers’ journeys as they attempt to integrate NOS into everyday lessons. This participatory action research paper reports the challenges and successes encountered by an in-service teacher, Sarah, implementing NOS for the first time throughout four units of a community college biology course (genetics, molecular biology, evolution, and ecology). Through the action research cycles of planning, implementing, and reflecting, Sarah identified areas of challenge and success. This paper reports emergent themes that assisted her in successfully embedding NOS within the science content. Data include weekly lesson plans and pre/post reflective journaling before and after each lesson of this lecture/lab combination class that met twice a week. This course was taught back to back semesters, and this study is based on the results of a year-long process. Developing pedagogical content knowledge (PCK) for NOS involves coming to understand the overlaps and connections between NOS, other science subject matter, pedagogical strategies, and student learning. Sarah found that through action research she was able to grow and assimilate her understanding of NOS within the biology content she was teaching. A shift in orientation toward teaching products of science to teaching science processes was a necessary shift for NOS pedagogical success. This process enabled Sarah’s development of PCK for NOS. As a practical example of putting research-based instructional recommendations into practice, this study may be very useful for other teachers who are learning to teach NOS. 相似文献
15.
While there is a growing literature focused on doctoral preparation for teaching about science teaching, rarely have recommendations extended to preparation for teaching science content to teachers. We three doctoral students employ self-study as a research methodology to investigate our developing pedagogical content knowledge for teaching science to teachers during a mentored internship in an elementary teacher professional development program. With our mentor, we examine critical incidents in the experience that supported new insights about teaching teachers and about ways in which beginning teacher educators need to develop their existing pedagogical content knowledge for teaching science to students in order to teach science effectively to teachers. We emphasize ways in which doctoral internships can support this learning and how our respective cultures shaped our interactions with and perceptions of teachers as learners. 相似文献
16.
论化学教师的PCK结构及其建构 总被引:1,自引:0,他引:1
梁永平 《课程.教材.教法》2012,(6):113-119
教师专业发展的核心问题就是发展他们的PCK。化学教师的PCK主要包括基于化学科学理解的化学学科知识、关于学生理解化学的知识、关于化学课程的知识和化学特定课题的教学策略及表征的知识。教师的PCK是在实践中建构和发展的。PCK的发展是一个非线性的、螺旋发展的动态的过程。化学教师PCK建构的基本策略是:形成促进PCK发展的教学思维方式,提升对化学科学的理解水平,关注学生对于化学的理解,发展化学课程知识,提高整合转化能力,多渠道丰富PCK资源库。 相似文献
17.
NELOFER HALAI 《International Journal of Science and Mathematics Education》2012,10(2):387-415
This study is a meta-synthesis of 20 action research studies undertaken in the classroom by teachers to develop their understanding
of an innovative strategy for teaching science. The studies were undertaken as part of the requirements for their 2-year M.Ed.
program from the Aga Khan University, Institute for Educational Development (AKU-IED), Pakistan. The teachers enrolled in
the program are expected to conduct a small-scale study as part of their thesis requirement which counts for 16 credits or
25% of the program. Twenty studies from a total of 350 M.Ed. thesis were selected based on specific criteria that they (a)
are qualitative action research studies, (b) are undertaken by teachers who themselves teach in the science classroom, and
(c) use an innovative strategy for teaching science. The meta-synthesis shows that action research contributed to developing
understanding in all three domains of teacher knowledge: pedagogical knowledge, subject matter knowledge, and pedagogical
content knowledge. The teacher researchers developed an understanding of the theory and practice of the innovative strategy
implemented and found that the transformation of their science content knowledge to “fit” the new ways of teaching was the
most challenging and rewarding part of their research. They also found that the balance between innovative ways of teaching
science and current methods of assessment was very hard to achieve and created a barrier to the acceptance of new methods
of teaching. 相似文献
18.
The purpose of this case study is to delve into the complexities of how preservice science teachers’ science teaching orientations, viewed as an interrelated set of beliefs, interact with the other components of pedagogical content knowledge (PCK). Eight preservice science teachers participated in the study. Qualitative data were collected in the form of content representation, responses to an open-ended instrument, and semi-structured interviews. Preservice teachers’ orientation and PCK were analyzed deductively. Constant comparison analysis of how their orientation interacted with other PCK components revealed three major themes: (1) one’s purpose for science teaching determines the PCK component(s) with which it interacts, (2) a teacher’s beliefs about the nature of science do not directly interact with his/her PCK, unless those beliefs relate directly to the purposes of teaching science, and (3) beliefs about science teaching and learning mostly interact with knowledge of instructional strategies. Implications for science teacher education and research are discussed. 相似文献
19.
Researchers have identified general pedagogical knowledge (GPK) as a relevant category of teacher knowledge. However, hardly any study has examined the relationship between GPK of teachers and the instructional quality delivered to their students. This article therefore investigates the relationship between teachers’ GPK assessed via a standardised paper–pencil test and the quality of their instruction rated by their students. A sample of 246 in-service teachers at vocational schools in Austria is used. Teachers’ GPK positively correlates with students’ perceptions of effective classroom management, generic teaching methods/teacher clarity and teacher–student relationships. Regression analysis shows that GPK is a significant predictor for instructional quality even when controlled for teacher education grades, teacher personality (Big-Five) and teaching experience. Implications of teachers’ GPK as a resource for their teaching, limitations of the study and perspectives for future research are discussed. 相似文献
20.
There is widespread system response to the perceived needs of education for twenty-first century, where learning-to-learn is privileged and schools are organised to prepare young people for work. One casualty of such skills-led teaching is deep thinking about curriculum questions and the knowledge contents of teaching in relation to the needs, motivations and experiential knowledge of students. In this paper we argue for greater conceptual clarity between curriculum and pedagogy, and between the worlds of children’s experience and disciplinary knowledge, in order to deepen teachers’ understanding of the practice of teaching. The paper shows how using the conceptual tools of curriculum making is key to becoming, and developing as a teacher. This paper supports subject specialism in teaching in a manner that respects the social and cultural capital of young people and their role in knowledge creation together with the emancipatory significance of gaining epistemic access to disciplinary knowledge. 相似文献