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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
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Preparing the Next Generation of Science Teacher Educators: A Model for Developing PCK for Teaching Science Teachers 总被引:1,自引:0,他引:1
Sandra K. Abell Meredith A. Park Rogers Deborah L. Hanuscin Michele H. Lee Mark J. Gagnon 《Journal of Science Teacher Education》2009,20(1):77-93
Science education doctoral programs often fail to address a critical piece—the explicit attention to the preparation of future
science teacher educators. In this article, we argue that, in addition to developing skills and a knowledge base for research,
doctoral students must be given the opportunity to observe, practice, and reflect on the pedagogical knowledge necessary to
instruct science teachers. In particular, we contend that the construct of pedagogical content knowledge (PCK) can be adapted
to the context of knowledge for teaching science teachers. We use the PCK construct to propose a model for the development
of knowledge for teaching science teachers, grounded in our experiences as doctoral students and faculty mentors. We end by
recommending a vision for doctoral preparation and a new standard to be included in the ASTE Professional Knowledge Standards
for Science Teacher Educators. 相似文献
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ABSTRACTThis paper concludes the Special Issue (SI) ‘Probing the Amalgam: the relationship between science teachers’ content, pedagogical and pedagogical content knowledge’. We review the five papers (Sorge et al; Gess-Newsome et al; Kind; Pitjeng-Mosabala and Rollnick; and Liepertz and Bronowski) by discussing evidence these present regarding the relationships between content knowledge (CK), pedagogical knowledge (PK) and pedagogical content knowledge (PCK); the development of CK, PK and PCK in novice and experienced secondary science teachers and how CK, PK and/or PCK impact students’ learning. In conclusion, we draw these findings together in offering proposals for future research via reconsideration of Shulman’s amalgam. This includes post-hoc examination of a PCK model known as ‘the Consensus Model’ (Gess-Newsome, [2015]. A model of teacher professional knowledge and skill including PCK: Results of the thinking from the PCK Summit. In A. Berry, P. J. Friedrichsen, & J. Loughran (Eds.), Re-examining Pedagogical Content Knowledge in Science Education (pp. 28–42). New York, NY: Routledge; Neumann, Kind, & Harms [2018]. Probing the amalgam: The relationship between science teachers’ content, pedagogical and pedagogical content knowledge. International Journal of Science Education, 1–15) and presentation of a novel PCK structure based on evidence from the SI studies. 相似文献
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Kathleen J. Roth Helen E. Garnier Catherine Chen Meike Lemmens Kathleen Schwille Nicole I.Z. Wickler 《科学教学研究杂志》2011,48(2):117-148
The Science Teachers Learning from Lesson Analysis (STeLLA) project is a videobased analysis‐of‐practice PD program aimed at improving teacher and student learning at the upper elementary level. The PD program developed and utilized two “lenses,” a Science Content Storyline Lens and a Student Thinking Lens, to help teachers analyze science teaching and learning and to improve teaching practices in this year‐long program. Participants included 48 teachers (n = 32 experimental, n = 16 control) and 1,490 students. The STeLLA program significantly improved teachers' science content knowledge and their ability to analyze science teaching. Notably, the STeLLA teachers further increased their classroom use of science teaching strategies associated with both lenses while their students increased their science content knowledge. Multi‐level HLM analyses linked higher average gains in student learning with teachers' science content knowledge, teachers' pedagogical content knowledge about student thinking, and teaching practices aimed at improving the coherence of the science content storyline. This paper highlights the importance of the science content storyline in the STeLLA program and discusses its potential significance in science teaching and professional development more broadly. © 2011 Wiley Periodicals, Inc., J Res Sci Teach 48: 117–148, 2011 相似文献
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Professor Peter Fensham Dr. Kathiravelu Navaratnam Dr. Warren Jones Professor Leo West 《Research in Science Education》1991,21(1):80-89
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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Julie Gess-Newsome Joseph A. Taylor Janet Carlson April L. Gardner Christopher D. Wilson Molly A. M. Stuhlsatz 《International Journal of Science Education》2019,41(7):944-963
ABSTRACTIn this exploratory study, we attempted to measure potential changes in teacher knowledge and practice as a result of an intervention, as well as trace such changes through a theoretical path of influence that could inform a model of teacher professional knowledge. We created an instrument to measure pedagogical content knowledge (PCK), studied the impact of a two-year professional development intervention, explored the relationships among teacher variables to attempt to validate a model of teacher professional knowledge, and examined the relationship of teacher professional knowledge and classroom practice on student achievement. Teacher professional knowledge and skill was measured in terms of academic content knowledge (ACK), general pedagogical knowledge (GenPK), PCK and teacher practice. Our PCK instrument identified two factors within PCK: PCK-content knowledge and PCK-pedagogical knowledge. Teacher gains existed for all variables. Only GenPK had a significant relationship to teacher practice. ACK was the only variable that explained a substantial portion of student achievement. Our findings provide empirical evidence that we interpret through the lens of the model of teacher professional knowledge and skill, including PCK [Gess-Newsome, J. (2015). A model of teacher professional knowledge and skill including PCK: Results of the thinking from the PCK summit. In A. Berry, P. Friedrichsen, & J. Loughran (Eds.), Re-examining pedagogical content knowledge in science education (pp. 28–42). London: Routledge Press], highlighting the complexity of measuring teacher professional knowledge and skill. 相似文献
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The impact of physics teachers’ pedagogical content knowledge and motivation on students’ achievement and interest 
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下载免费PDF全文 This paper examines students’ achievement and interest and the extent to which they are predicted by teacher knowledge and motivation. Student achievement and interest are both considered desirable outcomes of school instruction. Teacher pedagogical content knowledge has been identified a major predictor of student achievement in previous research, whereas teacher motivation is considered a decisive factor influencing students’ interest. So far, however, most research either focused on knowledge or motivation (both on the students’ as well as the teachers’ side), rarely investigating them together or examining the instructional mechanisms through which the supposed effects of teacher knowledge and motivation are facilitated. In the present study, N = 77 physics teachers and their classes in Germany and Switzerland are investigated utilizing a multi‐method approach in combining data obtained from test‐instruments (teacher pedagogical content knowledge, student achievement) and questionnaires (teacher motivation, student interest, student perceived enthusiastic teaching) as well as videotaped instruction (cognitive activation rated by observers). Multi‐level structural equation modeling was used to support the assumptions that teacher pedagogical content knowledge positively predicted students’ achievement; the effect was mediated by cognitive activation. Teachers’ motivation predicted students’ interest which was mediated by enthusiastic teaching as perceived by students. Neither did teacher pedagogical content knowledge predict students’ interest, nor teacher motivation students’ achievement. This implies that in order to improve students’ cognitive as well as affective outcomes, both teachers’ knowledge but also their motivation need to be considered. © 2016 The Authors. Journal of Research in Science Teaching Published by Wiley Periodicals, Inc. J Res Sci Teach 54:586–614, 2017 相似文献
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In the context of literacy being understood as an evolving concept, this article argues that a particular form of literacy, pedagogical literacy, is an important cognitive tool for a developed conceptualisation of pedagogical content knowledge and that, by extension, being pedagogically literate is an integral feature of being a professional teacher. Pedagogical literacy is a reflexive concept in which reading and writing (through a knowledge-transforming model) about pedagogical content knowledge is the essential means through which the teacher's pedagogical reasoning develops. 相似文献
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Elizabeth Allan Joseph Shane Erica M. Brownstein Cathy Ezrailson Rita Hagevik William Veal 《Journal of Science Teacher Education》2009,20(6):495-500
Standard 9 of the National Science Teachers Association Standards for Science Teacher Preparation is designed to ensure that science teacher preparation programs provide preservice science teachers with the knowledge and
skills to understand and successfully engage students in a safe and ethical manner. This standard contains four components
describing science teachers’ legal and ethical responsibilities, appropriate use of instructional materials (chemicals in
particular), emergency procedures and safety equipment, and guidelines for proper use of living organisms in the classroom.
In this article, we describe the requirements of Standard 9 and provide guidance on assessments that can be used to present
evidence for preservice teachers’ competence in each of the four components. 相似文献
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Stefan Sorge Jochen Kröger Stefan Petersen Knut Neumann 《International Journal of Science Education》2019,41(7):862-889
ABSTRACTTeachers’ professional knowledge is considered one of the most important predictors of instructional quality. According to Shulman, such professional knowledge includes content, pedagogical content and pedagogical knowledge. Although recent research shed some light on the structure of the dimensions of professional knowledge, little is known how teacher education impacts pre-service physics teachers’ professional knowledge. In an effort to address this issue, we examined the content, pedagogical content and pedagogical knowledge of N?=?200 pre-service physics teachers enrolled in different years of teacher education at 12 major teacher education universities in Germany. We used structural equation modelling (1) to examine the relations amongst pre-service physics teachers’ content, pedagogical content and pedagogical knowledge, (2) to explore how the three kinds of knowledge and their relations differ across different stages of teacher education and (3) to identify factors affecting the level of each component of professional knowledge. Our findings suggest that content, pedagogical content and pedagogical knowledge represent distinct types of knowledge. Furthermore, our findings show that in the first years of professional education, pedagogical content knowledge is more closely related with general pedagogical knowledge while in later years, it is more closely related with content knowledge, suggesting that it develops from a general knowledge about teaching and learning into knowledge about the teaching and learning of specific content. Finally, beyond school achievement and years of enrolment as predictors, we find in particular the amount of classroom observations to have a positive impact on the professional knowledge of pre-service physics teachers. 相似文献
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John Gordon 《Educational research; a review for teachers and all concerned with progress in education》2013,55(4):375-390
Background:?The matter of teacher knowledge in the curriculum subject of English is not simple. Certainly it is not easy to delineate what its ‘content knowledge’ should be and how this relates to other aspects of teacher knowledge. In the context of education policy in England, at a time of change when the nature of the subject and its pedagogy are under scrutiny, the issue acquires heightened relevance from an initial teacher preparation perspective. Purpose:?This paper sets out to consider the following questions: how do teachers of English acquire their teacher knowledge? What is known about the nuanced process of teacher knowledge development in English? Curriculum content is one element of teacher knowledge, but in the literary domain of English it does not suffice to specify what and how much should be read. The questions are discussed from the perspective of the knowledge development of postgraduate English teachers during initial teacher preparation. Sources of evidence:?Literature concerning the development of teacher knowledge and expertise both generally and in the curriculum subject of English is critically discussed. Within the literature, the notion of the mentor–novice dialogue is identified as an important way of developing teacher knowledge. Alongside the literature, three illustrative mentor accounts are presented, drawn from the experience of postgraduate students learning to teach English to secondary school pupils. Main argument:?The mentor accounts suggest that the boundaries of English are not easily demarcated. They indicate that the knowledge developed is other than the ‘content’ knowledge that might be acquired through initial degree studies. It is argued that teacher education demands a conception of teaching that takes full account of this knowledge development. At the same time, specific dispositions that do not automatically follow from prior academic attainment appear to be relevant. It is suggested that how these are cultivated, and how they are distinctive to the subject discipline are important questions for initial teacher preparation. Conclusions:?Whatever the new contexts for initial teacher preparation, understanding how teachers acquire and apply ‘teacherly’ knowledge deserves as much attention as the content of a subject or the prior attainment of entrants to the profession. Initial teacher preparation arrangements need to acknowledge the complexity of learning to teach English as a curriculum subject. Learning to teach is a nuanced process, requiring engagement with a dedicated pedagogical content knowledge. In literary English teaching, this comprises attention to micro and macro aspects concurrently, for example through attention to individual texts concurrent with consideration of conceptions of readers and reading. 相似文献
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Jess Gropen Janna F. Kook Cindy Hoisington Nancy Clark-Chiarelli 《Early education and development》2017,28(5):607-631
Young children are able to benefit from early science teaching but many preschool teachers have not had opportunities to deepen their own understanding of science or to develop their pedagogical content knowledge (PCK) in relation to specific science topics and concepts. This study presents the results of efficacy research on Foundations of Science Literacy (FSL), a comprehensive professional development program designed to support teachers’ knowledge of early childhood science; their PCK around 2 physical science topics (water, and balls and ramps); and their abilities to plan, facilitate, and assess young children’s learning during inquiry-based science explorations. Research Findings: In a randomized trial with 142 preschool teachers and 1,004 4-year-old children, FSL teachers demonstrated significantly higher quality science teaching in general and greater PCK in the 2 physical science topics than did teachers in comparison classrooms. Furthermore, children in FSL classrooms performed significantly better than children in comparison classrooms on tasks involving floating and sinking, and an instrumental variable analysis suggests that the quality of classroom science instruction mediated the relationship between teacher participation in FSL and student outcomes. Practice or Policy: Findings support the use of comprehensive early science professional development programs designed to bolster teacher knowledge and PCK. 相似文献
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John L. Pecore Mandy L. Kirchgessner Laura L. Carruth 《Clearing house (Menasha, Wis.)》2013,86(6):238-245
Abstract Informal learning environments often host teachers for learning opportunities, but little is known about the impact of these experiences on teacher professional development (PD). This article describes a unique collaborative PD experience between zoological park personnel and university faculty, examining the impact on teacher content knowledge, attitudes, and classroom lessons. Our findings suggest that the PD improved science content, but made no impact on already high attitudes toward science. In light of the high level of self-reported satisfaction and high frequency of teacher lesson plan use, we propose that the PD had other positive outcomes such as pedagogical knowledge and authentic learning experiences. 相似文献
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This research examined the relationship between content instruction and the development of elementary teacher candidates' understanding of conceptual change pedagogy. Undergraduate students (n = 27) enrolled in two sections of a science methods course received content instruction through either traditional or conceptual change methods, followed by instruction about conceptual change pedagogy. Candidates were interviewed pre- and postinstruction about their content and pedagogical knowledge and also wrote conceptual change lessons. Twelve of the 27 subjects were videotaped teaching in the field. Results indicate that prior to instruction, most candidates had weak content knowledge and held traditional pedagogical conceptions. After instruction, students in the conceptual change group had significantly larger gains in their content knowledge than those in the traditional group, gave qualitatively stronger pedagogical responses, and used conceptual change strategies more consistently in practice. These results indicate that personal experience of learning science content through conceptual change methods facilitated the development of understanding and use of conceptual change pedagogy in teaching practice. Thus if conceptual change methods are to be incorporated into teacher candidates' repertoire, science content courses that students take prior to teacher education should be taught using conceptual change pedagogy. In addition, courses in science education should use pedagogy more in line with that taught in methods courses. 相似文献
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Alberto J. Rodriguez 《理论付诸实践》2017,56(4):263-270
Making engineering and science culturally and socially relevant requires teachers to have broader content knowledge and an increased repertoire of pedagogical skills. One aspect of being an effective and culturally inclusive teacher that is seldom discussed is the ability to engage with the emotions associated with working for social justice. In other words, teachers need to be prepared to address the mixed emotions and desire to effect social change that students (children or adults) often experience when exposed to the very real social inequalities present in their own communities or in the world. This issue is particularly important now that the Next Generation Science Education Standards, and its emphasis on engineering practices, calls for students to engage in more problem solving of real world issues. This article seeks to raise awareness about critical emotional pedagogy and critical emotional literacy as 2 additional tools that are likely to augment teachers and researchers’ professional tool kit when interested in building a culturally inclusive and socially relevant learning environment. 相似文献
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As teachers' knowledge determines to a large extent how they respond to educational innovation, it is necessary for innovators
to take this knowledge into account when implementing educational changes. This study aimed at identifying patterns in the
content and the structure of science teachers' knowledge, at a point in time when they still had little experience in teaching
a new subject, that is, Public Understanding of Science. We investigated three domains of teacher knowledge: Teachers' pedagogical
content knowledge (PCK), subject-matter knowledge, and general pedagogical knowledge. A semi-structured interview and a questionnaire
were used. From the analysis of the data, two types of teacher knowledge emerged. One of the types was more integrated and
more extended in terms of PCK. Teachers who represented this type of knowledge had developed PCK that connected the various
programme domains of the new science subject. In both types, PCK was found to be consistent with general pedagogical knowledge.
In both types, however, subject-matter knowledge was similar, and not directly related to the other knowledge domains. Implications
for the implementation of the new subject are discussed. 相似文献
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Situated in the context of an in-service professional development (PD) program focused on Interdisciplinary Science Inquiry, this quantitative study tests the validity of and further explores the theoretical model adapted from Desimone's (2009), Educational Researcher, 38, 181–199 conceptual framework on effectiveness of PD. The participants include 204 teachers and 5,581 students within 12 local public schools from 2012 to 2016. The multilevel models indicate that PD participation, school-, and teacher-level factors influence teacher pedagogical content knowledge and inquiry instruction in different ways. Furthermore, the inquiry instruction significantly relates student understanding of interdisciplinary science concepts (ISCs) through a few mediators. Therefore, this study reinforces calls to provide teachers with high quality PD and contributes to current knowledge base of the mechanisms of how inquiry instruction influences students' understanding of ISCs. 相似文献
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Inquiry Into Life Science is a content biology course expressly for the fulfillment of the General Education life science laboratory course requirement of elementary education majors at this university. The course is modeled on the Teaching Standards and Content Standards of the National Science Education Standards [National Research Council. (1996). The national science education standards. Washington. DC: National Academy Press]. The change in intentions of 61 Fall 2002 enrollees were studied using triangulated quantitative and qualitative techniques to seek specific changes regarding self-perceived effectiveness as a biology teacher, self-perceived subject matter command, curriculum development competence, and pedagogical skills, all linked to developing intentions. Significant growth in all four domains was observed. These findings contribute to the research-based call for inquiry-oriented college science coursework for preservice teachers. 相似文献