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1.
Post-primary science teachers in Victoria were asked to express views about primary science curriculum design and implementation.
They were also asked about the value of continuity between primary and post-primary science education. The post-primary teachers
generally had favourable attitudes to primary science education and considered that cooperation would be useful-though it
is not common at the moment. However, the data revealed a considerable range of opinion. Post-primary science teachers' views
about primary science curriculum are similar to those of primary teachers themselves, but many post-primary teachers would
place more emphasis on formal or textbook knowledge. Post-primary teachers see a number of systemic problems in implementing
primary science education but their positive perceptions suggest the value of encouraging more structured links. The notion
of continuity across the two sectors was well supported.
Specializations: science education policy and practice, teacher education, school effectiveness.
Specializations: science education, teacher education in science. 相似文献
2.
Angela Calabrese Barton 《课程研究杂志》2013,45(6):797-820
Many science educators, in the US and elsewhere, suppport the idea that all students should have fair and equal opportunities to become scientifically literate through authentic, real problem-based science education. However, this challenge requires teachers to find ways to help all students feel comfortable with, and connected to, science. Despite the general consensus around the ideal of science for all, science teacher education programmes have had little or no impact on preservice teachers' philosophies of teaching and learning, especially as it relates to serving underserved populations in science. In this paper, I explore community service-learning as one way of addressing the multicultural dimension of preservice education with the following three questions: In what ways does involving pre-service science teachers in community service-learning influence their views on multicultural science education, in theory and practice? What qualities of community service-learning make multicultural science education a realistic objective? How might service-learning be used to push our collective understanding of what an inclusive and liberatory multicultural science teaching practice could be? I explore these questions and propose further areas of research by using a case study involving service-learning from my own teaching-research with preservice students. 相似文献
3.
The Lesson Study for Accessible Science (LSAS) project created middle school teams comprised of both science and special education teachers who engaged in collaborative work to improve instruction in inclusive classrooms. The intervention is based on Lesson Study, a professional development approach that originated in Japan, which supports the systematic examination of practice and student understanding. Using an experimental design, teams of teachers were randomly assigned to the LSAS intervention or to a wait‐list comparison group. The results of this study suggest that science and special educators in the LSAS intervention were able to generate more accommodations for students with learning disabilities, and they increased their ability to set an instructional context and adapt an instructional plan to meet science learning goals for all students in an inclusive classroom. They did not, however, show significant increases in their knowledge of science content or learning disabilities. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 1012–1034, 2012 相似文献
4.
Walter S. Smith 《科学教学研究杂志》1982,19(5):367-375
A random sample of 400 K-12 science educators who were members of the National Science Teachers Association were surveyed regarding their attitude toward and practice of career education in their science teaching. These science teachers rejected a narrowly vocational view, favoring instead a conception of career education which included self-perception, values analysis, and vocational skills objectives. The science educators affirmed the importance of career education for a student's education, asserted career education ought to be taught in their existing science courses, and expressed a willingness to do so. Fewer than one-third of the science teachers, however, reported incorporating career education at least on a weekly basis in their science lessons. The major impediment to including more career education in science teaching was seen to be their lack of knowledge of methods and materials relevant to science career education, rather than objections from students, parents, or administrators; their unwillingness; or their evaluation of career education as unimportant. Thus, in order to improve this aspect of science teaching, science teachers need more concrete information about science career education applications. 相似文献
5.
This study examined how a contextually based authentic science experience affected the science identities of urban high school students who have been marginalized during their K-12 science education. We examined students’ perceptions of the intervention as an authentic science experience, how the experience influenced their science identity, as well as their perceptions about who can do science. We found that the students believed the experience to be one of authentic science, that their science identity was positively influenced by participation in the experience, and that they demonstrated a shift in perceptions from stereotypical to more diverse views of scientists. Implications for science education are discussed. 相似文献
6.
Norman G. Lederman 《科学教学研究杂志》1999,36(8):916-929
The purpose of this multiple case study was to investigate the relationship of teachers' understanding of the nature of science and classroom practice and to delineate factors that facilitate or impede a relationship. Five high school biology teachers, ranging in experience from 2 to 15 years, comprised the sample for this investigation. During one full academic year, multiple data sources were collected and included classroom observations, open‐ended questionnaires, semistructured and structured interviews, and instructional plans and materials. In addition, students in each of the teachers' classrooms were interviewed with respect to their understanding of the nature of science. Using analytical induction, multiple data sources were analyzed independently and together to triangulate data while constructing teacher profiles. The results indicated that teachers' conceptions of science do not necessarily influence classroom practice. Of critical importance were teachers' level of experience, intentions, and perceptions of students. The results have importnat implications for teacher education as well as the successful implementation of current reforms. © 1999 John Wiley & Sons, Inc. J Res Sci Teach 36: 916–929, 1999 相似文献
7.
The purpose of this research was to understand how preservice elementary teacher experiences within the context of reflective science teacher education influence the development of professional knowledge. We conducted a case analysis to investigate one preservice teacher's beliefs about science teaching and learning, identify the tensions with which she grappled in learning to teach elementary science, understand the frames from which she identified problems of practice, and discern how her experiences played a role in framing and reframing problems of practice. The teacher, Barbara, encountered tensions in thinking about science teaching and learning as a result of inconsistencies between her vision of science teaching and her practice. Confronting these tensions between ideals and realities prompted Barbara to rethink the connections between her classroom actions and students' learning and create new perspectives for viewing her practice. Through reframing, she was able to consider and begin implementing alternative practices more resonant with her beliefs. Barbara's case illustrates the value of understanding prospective teachers' beliefs, their experiences, and the relationship between beliefs and classroom actions. Furthermore, the findings underscore the significance of offering reflective experience as professionals early in the careers of prospective teachers. © 1999 John Wiley & Sons, Inc. J Res Sci Teach 36: 121–139, 1999 相似文献
8.
Maria S. Rivera Maulucci 《Cultural Studies of Science Education》2010,5(4):985-991
I reflect on studies by Rodriguez and Carlone, Haun-Frank, and Kimmel to emphasize the ways in which they excavate silences
in the science education literature related to linguistic and cultural diversity and situating the problem of reform in teachers
rather than contextual factors, such as traditional schooling discourses and forces that serve to marginalize science. I propose
that the current push for top-down reform and accountability diminishes opportunities for receptivity, learning with and from
students in order to transform teachers’ practices and promote equity in science education. I discuss tensions of agency and
passivity in science education reform and argue that attention to authentic caring constitutes another silence in the science
education literature. I conclude that the current policy context positions teachers and science education researchers as tempered
radicals struggling against opp(reg)ressive reforms and that there is a need for more studies to excavate these and other
silences. 相似文献
9.
This paper is based on interviews with seventy-five science teachers in twelve schools across Australia. The interviews were
conducted as part of a D.E.E.T. Project of National Significance. The purpose of the project was to develop a strategy for
the professional development of science teachers. The main purpose of our interviews was to listen to teachers' views on what
such a strategy should try to achieve. We asked them to talk about conditions affecting the quality of their work, their attitudes
to teaching, their professional development, their careers, the evaluation of teaching, and Award Restructuring. Through these
interviews we came to understand how many science teachers are loosely connected with potentially valuable sources of support
for their professional development. In this paper we focus on one group of “loose connections”; those between science teachers
and scientists in other fields, research in science education, and their colleagues within science departments in schools.
Specializations: Science education, reflective practice, teaching and learning.
Specializations: Professional development, educational evaluation. 相似文献
10.
《Teaching and Teacher Education》2006,22(3):363-375
The purpose of this study was to examine the effects of science education courses on a group of Taiwanese inservice and preservice teachers’ views toward the nature of science. There were two science education courses in the study; one was for 36 inservice teachers, while the other one was for 32 preservice teachers. Both of the courses included the philosophy of science, the instruction about student alternative conceptions and theories of conceptual change, and some classroom activities for science education. The data sources were based upon these teachers’ questionnaires, written responses to open-ended questions and interviews. The findings derived from this study revealed that both inservice and preservice teachers, to a certain extent, changed their views toward the nature of science when completing the courses. Many of them might reinterpret and reconstruct their views about science during the courses, and their views had progressed toward more constructivist-oriented. This study also suggested that the instruction about student alternative conceptions and conceptual change theories was more helpful than direct instruction about the philosophy of science in changing teachers’ views about science. 相似文献
11.
Karen Sullenger Steve Turner Hart Caplan Joe Crummey Rick Cuming Cynthia Charron Beth Corey 《科学教学研究杂志》2000,37(9):895-915
Does studying about the nature(s) of science contribute to a prospective teachers' effectiveness as a science teacher? This research grew out of a course created by a science educator and historian of science who believed prospective teachers needed more complex understandings of the cultural wars surrounding science. The research team consisted of five prospective teachers who participated in the course as well as the two instructors. This paper describes the experience of participating in the course from both perspectives. We argue that studying the cultural wars over science contributes to prospective teachers' professional growth as much because the course elicits tacit beliefs about school science as it introduces more complex understandings of science. We found that prospective teachers' tacit beliefs about school science were their greatest barrier to developing more complex understandings about the nature(s) of science. We contend that willingness to grapple with complexity and developing a professional identity by locating oneself in the conversations about the nature(s) of science are better criteria for determining the professional growth of prospective teachers than knowledge measures. Finally, we argue that prospective teachers should be viewed as professionals who are responsible for finding their own voice, making their own decisions, and considering the consequences of their beliefs on their practice. This study raises questions critical to teacher education programs for prospective teachers and teacher‐educators alike. © 2000 John Wiley & Sons, Inc. J Res Sci Teach 37: 895–915, 2000 相似文献
12.
Just as scientific knowledge is constructed using distinct modes of inquiry (e.g. experimental or historical), arguments constructed during science instruction may vary depending on the mode of inquiry underlying the topic. The purpose of this study was to examine whether and how secondary science teachers construct scientific arguments during instruction differently for topics that rely on experimental or historical modes of inquiry. Four experienced high-school science teachers were observed daily during instructional units for both experimental and historical science topics. The main data sources include classroom observations and teacher interviews. The arguments were analyzed using Toulmin's argumentation pattern revealing specific patterns of arguments in teaching topics relying on these 2 modes of scientific inquiry. The teachers presented arguments to their students that were rather simple in structure but relatively authentic to the 2 different modes. The teachers used far more evidence in teaching topics based on historical inquiry than topics based on experimental inquiry. However, the differences were implicit in their teaching. Furthermore, their arguments did not portray the dynamic nature of science. Very few rebuttals or qualifiers were provided as the teachers were presenting their claims as if the data led straightforward to the claim. Implications for classroom practice and research are discussed. 相似文献
13.
Hagar Ibrahim Labouta Natasha A. Kenny Rui Li Max Anikovskiy Leslie Reid David Thomas Cramb 《International Journal of Science Education》2018,40(12):1476-1492
Research on understanding the full extent that an authentic science research experience engages students in how scientists think and act is sparse. ‘Learning-science-by-doing-science’ (LSDS) is an emerging self-guided process-learning model in postsecondary science education. It offers authentic science research opportunities that drive students to think and act like scientists. This study investigates the LSDS approach as a potential model for science learning at postsecondary level and aims to answer a main research inquiry – what are the students’ and teaching staff’s perceptions of students’ learning gains and the quality of their learning experiences in an authentic research environment within the LSDS model? To answer this question, data were collected from the students, alumni, instructors, teaching assistants and the program director via questionnaires, focus groups and interviews. Students’ and staff’s lived experiences and their perceptions on their authentic research experiences within the LSDS model were used to articulate the key attributes and stages of the LSDS model. The outcomes of this study can be used to help other science programs implement similar authentic research process learning approaches in their own contexts. 相似文献
14.
杨大光 《南昌教育学院学报》2010,25(4):63-63,85
本文以岗位任职教育中,理科任课教员的实践能力培养为主题,分析了加强对岗位任职教育教员实践能力培养重要性的认识,以及岗位任职教育教员实践能力培养的主要内容,提出了岗位任职教育教员实践能力培养的主要方法和途径。 相似文献
15.
16.
The teaching of science in K-12 schools has long been criticized as a process that propagates oppression for students who do not conform to entrenched norms of gender, sex, and sexuality. Academic standards, curriculum, and textbooks are rife with rhetoric that reinforces any deviation from cisheterosexuality as aberrant, unusual, or abnormal. However, these often-over-simplified conceptions discount the historic social and scientific intricacies of gender and sexual diversity as well as students' own lived experiences. While there have been advancements in LGBTQ+ and gender-inclusive science education reform, these movements have been stymied by a lack of cohesive guidelines for pedagogy and practice, particularly for trans, nonbinary, and gender-creative youth. Situated within trans-created conceptual frameworks for critical education, this study explored the pedagogical practices of 10 transgender science teachers with the purpose of learning from their experiences creating gender inclusive curriculum. From the data (in-depth interviews, instructional materials samples, and reflective teaching statements) emerged the TRANS (Trans and Research-informed Approaches for Nonbinary and gender-inclusive Science education) Framework for gender inclusive science education pedagogy. This framework is anchored in three domains for teaching science through a trans-informed lens:interrogating and accessing power, resisting essentialism, and embracing experiential knowledge and personal epistemologies. The findings of this study contribute to our growing understanding of gender-inclusive science learning environments. Importantly, this study amplified the experiential knowledge of teachers whose voices are critically absent from research surrounding gender and LGBTQ+-inclusive science education practice. Moreover, the framework derived from teachers' experiences can be used to guide educators in making their science classrooms safer and more gender inclusive. 相似文献
17.
Jordan Mifsud 《Curriculum Journal》2017,28(1):83-104
The Maltese National Minimum Curriculum published in 1999 sought to strengthen bilingualism by reinforcing the practice of teaching and assessing some subjects in English and others in Maltese. It also pointed out that code-switching should only be used in cases of severe pedagogical difficulties. As a new National Curriculum Framework was being prepared some educators suggested language as a possible barrier to student progress and argued that the traditional practice of teaching subjects such as science in English should be reconsidered. This study investigated language choices, function and code-switching in science lessons. Classroom observations, interviews and focus groups showed that in state schools 12-13 year old students were being taught science predominantly in Maltese while reading, writing and formal assessment were in English. Students who were more exposed to English, irrespective of class stream, used this language more frequently than those who were less exposed to the language. The findings seem to suggest that teachers may be overcautious. While code-switching may initially provide technical terms and serve as a bridge between the two languages, eventually it can give way to a more precise and formal use of English thus ensuring both learning of science and development of bilingualism. 相似文献
18.
Current research indicates that student engagement in scientific argumentation can foster a better understanding of the concepts and the processes of science. Yet opportunities for students to participate in authentic argumentation inside the science classroom are rare. There also is little known about science teachers' understandings of argumentation, their ability to participate in this complex practice, or their views about using argumentation as part of the teaching and learning of science. In this study, the researchers used a cognitive appraisal interview to examine how 30 secondary science teachers evaluate alternative explanations, generate an argument to support a specific explanation, and investigate their views about engaging students in argumentation. The analysis of the teachers' comments and actions during the interview indicates that these teachers relied primarily on their prior content knowledge to evaluate the validity of an explanation rather than using available data. Although some of the teachers included data and reasoning in their arguments, most of the teachers crafted an argument that simply expanded on a chosen explanation but provided no real support for it. The teachers also mentioned multiple barriers to the integration of argumentation into the teaching and learning of science, primarily related to their perceptions of students' ability levels, even though all of these teachers viewed argumentation as a way to help students understand science. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 1122–1148, 2012 相似文献
19.
Transferring theory into practice: A model for professional development for science education reform
David L. Radford 《科学教学研究杂志》1998,35(1):73-88
Instituting reform in science education requires teachers who are knowledgeable in science content, process, and inquiry pedagogy. Most elementary and middle-grades teachers are not teaching reform-based science and need training to be able to do so. Project LIFE, a state systemic initiatives professional development program for middle-grades life science teachers, has been successful in improving the science content knowledge, process skills, and attitudes toward teaching science of 90 teachers during the first 3 years of the project. Data collected through classroom observations, surveys, and tests given to students of project teachers and students of matched nonproject teachers revealed a significant positive impact of the project in classrooms. The essential characteristics of the project are described as a guide for individuals planning or delivering reform-based science education professional development. © 1998 John Wiley & Sons, Inc. J Res Sci Teach 35: 73-88, 1998. 相似文献
20.
While constructivism has emerged as a major reform in science education from the last decade, wide-spread adoption of constructivist
practices in school laboratories and classrooms is yet to be achieved. If constructivist approaches are to be utilised more
widely, teachers will need to accept a more active and constructivist role in their own pedagogical learning. One experienced
junior science teacher was able to implement constructivist approaches in her classroom by using a personally constructed
metaphor to guide her practice.
Specializations: science education, teaching of thinking, professional development.
Specializations: constructivism, professional development. 相似文献