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1.
Meredith Park Rogers Sandra Abell John Lannin Chia-Yu Wang Kusalin Musikul David Barker Shannon Dingman 《International Journal of Science and Mathematics Education》2007,5(3):507-532
This study compares the views of teachers and professional development facilitators about effective professional development
(PD). We analyzed interviews with 72 teacher participants and 23 PD facilitators involved in nine science and mathematics
PD projects. The teachers' themes for characterizing effective PD included classroom application, teacher as learner, and
teacher networking. Similarly, the PD facilitators discussed effective PD as having classroom application and experiences
for teachers as learners. In addition, PD facilitators shared the need to develop collegial relationships with teachers and
improve teacher knowledge. These views correspond to some of the standards and recommendations described in policy and research
documents on effective PD. Criteria of effective PD in these documents that the participants did not mention included: (1)
challenging teachers' content and pedagogical content knowledge with transformative learning experiences, (2) encouraging
teacher leadership for sustained support, and (3) focusing on student learning by instructing teachers on how to use student
data to inform their teaching practice. Our findings have implications for designing PD that reflects the criteria of standards-based
reform. 相似文献
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3.
An experimental study of a museum-based,science PD programme’s impact on teachers and their students
We present results of an experimental study of an urban, museum-based science teacher PD programme. A total of 125 teachers and 1676 of their students in grades 4–8 were tested at the beginning and end of the school year in which the PD programme took place. Teachers and students were assessed on subject content knowledge and attitudes towards science, along with teacher classroom behaviour. Subject content questions were mostly taken from standardised state tests and literature, with an ‘Explain:’ prompt added to some items. Teachers in the treatment group showed a 7% gain in subject content knowledge over the control group. Students of teachers in the treatment group showed a 4% gain in subject content knowledge over the control group on multiple-choice items and an 11% gain on the constructed response items. There was no overall change in science attitudes of teachers or students over the control groups but we did find differences in teachers’ reported self-efficacy and teaching anxiety levels, plus PD teachers reported doing more student-centered science teaching activities than the control group. All teachers came into the PD with high initial excitement, perhaps reflecting its context within an informal learning environment. 相似文献
4.
Andrea Gay Van Duzor 《Journal of Science Teacher Education》2012,23(5):481-502
In many innovative science content professional development (PD) courses for teachers, science concepts are situated within pedagogical contexts, or in other words, science content is incorporated within contexts relevant to teaching and student learning. Pedagogical contexts are often used because they are believed to be engaging for teachers and to support content transfer to the classroom. However, few studies have investigated how pedagogical contexts serve to impact teacher engagement and science content learning. This qualitative case study examined K-8 in-service teachers?? interactions with pedagogical contexts in a chemistry PD course. Findings indicate that teachers??: (1) contribution of teaching experiences helped create a collegial learning environment, (2) sharing of concerns from classroom teaching directed content discussion and learning objectives, and (3) reflection on teacher and learner roles in the PD classroom led to persistence in chemistry-content learning. Implications for PD instructor use of pedagogical contexts in science content based PD are discussed. 相似文献
5.
Todd Campbell Wayne Melville Dawne Goodwin 《International Journal of Science Education》2013,35(10):1263-1281
ABSTRACTWhile the literature is replete with studies examining teacher knowledge and pedagogical content knowledge (PCK), few studies have investigated how science teacher orientations (STOs) shape classroom instruction. Therefore, this research explores the interplay between a STOs and the topic specificity of PCK across two science topics within a grade 9 earth science course. Through interviews and observations of one teacher’s classroom across two sequentially taught, this research contests the notion that teachers hold a single way of conceptualising science teaching and learning. In this, we consider if multiple ontologies can provide potential explanatory power for characterising instructional enactments. In earlier work with the teacher in this study, using generic interview prompts and general discussions about science teaching and learning, we accepted the existence of a unitary STO and its promise of consistent reformed instruction in the classroom. However, upon close examination of instruction focused on different science topics, evidence was found to demonstrate the explanatory power of multiple ontologies for shaping characteristically different epistemological constructions across science topics. This research points to the need for care in generalising about teacher practice, as it reveals that a teacher’s practice, and orientation, can vary, dependent on the context and science topics taught. 相似文献
6.
Ni Chang 《Journal of Early Childhood Teacher Education》2013,34(1):25-29
ABSTRACTTeaching mathematics in an early childhood program requires mathematical content knowledge and teacher self-efficacy, yet research has shown that early childhood educators often have negative attitudes towards mathematics and feel underprepared to teach mathematical concepts. The study reported here documents the reconceptualization of a graduate, preservice teacher education program, a program designed to address teacher anxiety and increase capacity to teach mathematics in a play-based early childhood setting. The study aimed to investigate: (1) the effectiveness of the mathematics component of the course in equipping teacher candidates to teach mathematics in early childhood, and (2) whether participation in the mathematics component of the course changed teacher candidates’ self-efficacy regarding mathematics. Findings show that both self-efficacy and content knowledge improved when teacher candidates had the opportunity to engage with play-based learning experiences that embed mathematical concepts. Furthermore, the focus on a learning trajectories approach supports the identification of developmental progression points in children’s emerging mathematical understanding, assisting with teacher candidates’ fine-grained observations, assessment of children’s learning, and authentic, individualized planning for learning. 相似文献
7.
Dely Elliot Delia Wilson Stephen Boyle 《British journal of educational technology : journal of the Council for Educational Technology》2014,45(4):571-580
Scotland's rich heritage in the field of science and engineering and recent curricular developments led to major investment in education to equip pupils with improved scientific knowledge and skills. However, due to its abstract and conceptual nature, learning science can be challenging. Literature supports the role of multimedia technology in addressing the difficulties associated with science learning. This paper reports on a two‐phase investigation that explored the impact of multimedia resources situated in a national e‐learning portal to (1) assist generalist and specialist science teachers' teaching practices and (2) stimulate pupils' interest, encourage engagement and improve overall science learning experiences. Our research also investigated how portal resources facilitated and/or acted as barriers for teaching and learning. Findings from our research affirm that multimedia technology has transformed science learning; with these resources accessible through a national portal, radically different learning experiences ensued. These findings raise serious implications for teacher education and professional development in ensuring that teachers acquire sound science content and pedagogical knowledge as well as practical strategies for utilising technology‐rich environments, as this is likely to become the norm. Harnessing the fullest potential that information and communication technology, multimedia and e‐learning portals can offer starts by addressing these challenges. 相似文献
8.
During their years of schooling, students develop perceptions about learning and teaching, including the ways in which teachers
impact on their learning experiences. This paper presents student perceptions of teacher pedagogy as interpreted from a study
focusing on students' experience of Year 7 science. A single science class of 11 to 12 year old students and their teacher
were monitored for the whole school year, employing participant observation, and interviews with focus groups of students,
their teacher and other key members of the school. Analysis focused on how students perceived the role of the teacher's pedagogy
in constructing a learning environment that they considered conducive to engagement with science learning. Two areas of the
teacher's pedagogy are explored from the student perspective of how these affect their learning: instructional pedagogy and
relational pedagogy. Instructional pedagogy captures the way the instructional dialogue developed by the teacher drew the students into the learning process and enabled
them to “understand” science. How the teacher developed a relationship with the students is captured as relational pedagogy, where students said that they learned better when teachers were passionate in their approach to teaching, provided a supportive
learning environment and made them feel comfortable. The ways in which the findings support the direction for the middle years
and science education are considered. 相似文献
9.
This study examines the influence of St. John's University Summer Science Experience and Teacher Mentoring Program on African American and Hispanic high school students' interest in science and science teaching as career goals. In the first phase of the program, high school students from six school districts in Suffolk County, Long Island (a suburb of metropolitan New York City) engaged in investigative science experiences that emphasized environmental science, chemistry, and technology and learned about effective science pedagogy. The second phase of the program functioned as a teaching practicum for the high school students, where they planned for instruction and taught middle school students investigations similar to those that they had engaged in during the summer program. Various surveys were developed to assess high school students' attitudes about science and science teaching, knowledge of effective teaching approaches, knowledge of ways to motivate younger students, and the overall impact of the program on the high students' interest in science and/or science teaching as career goals. Program evaluations reveal that over 75% of the students expressed an interest in considering science or science teaching as career possibilities. Implications for minority teacher recruitment are discussed. 相似文献
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Reading the interesting article Discerning selective traditions in science education by Per Sund, which is published in this issue of CSSE, allows us to open the discussion on procedures for teaching science today. Clearly there is overlap between the teaching of science and other areas of knowledge. However, we must constantly develop new methods to teach and differentiate between science education and teaching science in response to the changing needs of our students, and we must analyze what role teachers and teacher educators play in both. We must continually examine the methods and concepts involved in developing pedagogical content knowledge in science teachers. Otherwise, the possibility that these routines, based on subjective traditions, prevent emerging processes of educational innovation. Modern science is an enormous field of knowledge in its own right, which is made more expansive when examined within the context of its place in society. We propose the need to design educative interactions around situations that involve science and society. Science education must provide students with all four dimensions of the cognitive process: factual knowledge, conceptual knowledge, procedural knowledge, and metacognitive knowledge. We can observe in classrooms at all levels of education that students understand the concepts better when they have the opportunity to apply the scientific knowledge in a personally relevant way. When students find value in practical exercises and they are provided opportunities to reinterpret their experiences, greater learning gains are achieved. In this sense, a key aspect of educational innovation is the change in teaching methodology. We need new tools to respond to new problems. A shift in teacher education is needed to realize the rewards of situating science questions in a societal context and opening classroom doors to active methodologies in science education to promote meaningful learning through meaningful teaching. 相似文献
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13.
This study employs narrative methods to give a holistic view of the experiences of five mature age preservice teachers in
a semester unit of science education. The unit was designed to help teachers examine and make explicit their ideas about science
and science teaching and consider ways in which they might put those ideas into practice. The pivotal theme, around which
the teachers' experiences could be organised, was found to be learning science. The preservice teachers expressed a need for
a supportive learning environment in which concepts were built gradually and introduced using concrete examples. Previous
science experience was found to be a major influence on the attitudes the participants brought to the present course. A lack
of previous experience or negative past experiences were a major cause of anxiety. Gender was also important as it had limited
the science experiences available to some participants in the past and continued to influence the way they participated in
classes during the semester.
Specializations: primary science, science teacher education, primary school field experience.
Specializations: formation of teachers' knowledge, leadership, teacher change, school reform. 相似文献
14.
A Review of Empirical Literature on Inquiry Professional Development: Alignment with Best Practices and a Critique of the Findings 总被引:1,自引:0,他引:1
Daniel K. Capps Barbara A. Crawford Mark A. Constas 《Journal of Science Teacher Education》2012,23(3):291-318
This review brings together the literature on inquiry-based teaching and learning and science teacher professional development
(PD). We present a targeted critical review of research focused specifically on the nature of PD programs purported to emphasize
inquiry. Our review analyzes the features of each program and critiques the reported outcomes of each study. Findings from
this review suggest a general alignment with recommended features of effective PD as outlined in the literature with a few
notable exceptions, including: supporting teachers in developing inquiry-based lesson plans, providing authentic inquiry experiences,
and focusing on science content for teachers. More importantly, our review reveals that no reported study has connected participation
in inquiry-based PD with all the desired outcomes of teacher PD: enhanced teacher knowledge, change in beliefs and practice,
and enhanced student achievement. Implications for future research on inquiry-based PD programs are discussed. 相似文献
15.
To improve student science achievement in the United States we need inquiry-based instruction that promotes coherent understanding and assessments that are aligned with the instruction. Instead, current textbooks often offer fragmented ideas and most assessments only tap recall of details. In this study we implemented 10 inquiry-based science units that promote knowledge integration and developed assessments that measure student knowledge integration abilities. To measure student learning outcomes, we designed a science assessment consisting of both proximal items that are related to the units and distal items that are published from standardized tests (e.g., Trends in International Mathematics and Science Study). We compared the psychometric properties and instructional sensitivity of the proximal and distal items. To unveil the context of learning, we examined how student, class, and teacher characteristics affect student inquiry science learning. Several teacher-level characteristics including professional development showed a positive impact on science performance. 相似文献
16.
ABSTRACTScholars have called for new conceptualisations of teachers’ learning that capture the complex, contextualised, and dynamic nature of professional growth. In this article, we describe the Dynamic Systems Model of Role Identity (DSMRI) that portrays teacher learning as inseparable from the complex and dynamic processes by which teachers form their professional identities. The model depicts theoretical and procedural learning about teaching as integrated with other ontological and epistemological beliefs, self-perceptions and self-definitions, purpose and goals in teaching, and perceived action possibilities that constitute the teacher’s professional role identity. After describing the DSMRI, we demonstrate its application with an instrumental case of a science teacher who participated in a professional development (PD) institute designed to foster learning and motivation for implementing student-centred, inquiry-based instruction. DSMRI-guided analysis of pre-, mid-, and post-institute interviews highlighted the role of pre-PD role identities of learner and teacher in the teacher’s PD experiences, which, in turn, fostered both new alignments and new tensions in the teacher’s role identity that promoted an overall change towards a more student-centred teacher role identity. The article demonstrates the utility of the DSMRI for conceptualising teachers’ learning as contextualised and dynamic identity formation processes. 相似文献
17.
Andrew Walker Mimi Recker Lei Ye M. Brooke Robertshaw Linda Sellers Heather Leary 《Educational technology research and development : ETR & D》2012,60(3):421-444
This article presents a quasi-experimental study comparing the impact of two technology-related teacher professional development (TTPD) designs, aimed at helping junior high school science and mathematics teachers design online activities using the rapidly growing set of online learning resources available on the Internet. The first TTPD design (tech-only) focused exclusively on enhancing technology knowledge and skills for finding, selecting, and designing classroom activities with online resources, while the second (tech?+?pbl) coupled technology knowledge with learning to design problem-based learning (PBL) activities for students. Both designs showed large pre-post gains for teacher participants (N?=?36) in terms of self-reported knowledge, skills, and technology integration. Significant interaction effects show that teachers in the tech?+?pbl group had larger gains for self-reported knowledge and externally rated use of PBL. Three generalized estimating equation (GEE) models were fit to study the impact on students?? (N?=?1,247) self reported gains in behavior, knowledge, and attitudes. In the resulting models, students of tech?+?pbl teachers showed significant increases in gain scores for all three outcomes. By contrast, students of tech-only teachers showed improved gains only in attitudes. 相似文献
18.
Chrystalla Mouza Alison Marzocchi Yi-Cheng Pan Lori Pollock 《Journal of Research on Technology in Education》2016,48(2):84-104
Current policy efforts that seek to improve learning in science, technology, engineering, and mathematics (STEM) emphasize the importance of helping all students acquire concepts and tools from computer science that help them analyze and develop solutions to everyday problems. These goals have been generally described in the literature under the term computational thinking. In this article, we report on the design, implementation, and outcomes of an after-school program on computational thinking. The program was founded through a partnership between university faculty, undergraduates, teachers, and students. Specifically, we examine how equitable pedagogical practices can be applied in the design of computing programs and the ways in which participation in such programs influence middle school students' learning of computer science concepts, computational practices, and attitudes toward computing. Participants included 52 middle school students who voluntarily attended the 9-week after-school program, as well as four undergraduates and one teacher who designed and implemented the program. Data were collected from after-school program observations, undergraduate reflections, computer science content assessments, programming products, and attitude surveys. The results indicate that the program positively influenced student learning of computer science concepts and attitudes toward computing. Findings have implications for the design of effective learning experiences that broaden participation in computing. (Keywords: computational thinking, programming, middle school, mixed methods) 相似文献
19.
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
20.
《The Journal of educational research》2012,105(2):157-160
ABSTRACT Student foundational knowledge of science, technology, engineering, and mathematics (STEM) is formed in their elementary education. Paradoxically, many elementary teachers have constrained background knowledge, confidence, and efficacy for teaching STEM that may hamper student STEM learning. The association between teacher preparation to teach STEM and student achievement in STEM motivated the authors' professional development program. The authors created and implemented a professional development program to address K–5 teacher confidence for, attitudes toward, knowledge of, and efficacy for teaching inquiry-based STEM. Using data from 2 independent cohorts the authors found significant and consistent increases in pre- to postinstitute assessments of teacher confidence, efficacy, and perceptions of STEM. Further, they found increased participant attention toward linking STEM curriculum and instruction to learning standards. Implications and suggestions for future research are discussed. 相似文献