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1.
Damon L. Bahr Eula Ewing Monroe Dennis Eggett 《Journal of Mathematics Teacher Education》2014,17(3):271-297
This paper describes a study of observed relationships between the design of a preservice elementary mathematics methods course with accompanying field practicum and changes in the extent to which participating prospective teachers identified themselves with the mathematics reform movement after becoming practicing teachers. The curriculum of the course with its embedded field practicum experiences was designed to support prospective teachers in interweaving methods coursework and pedagogical instruction with classroom practice. University and elementary school structures were interwoven by conducting weekly mathematics methods course sessions at a school site followed immediately by related practicum experiences in classrooms in the school. The interweaving of conceptualizations about mathematics teaching and learning was facilitated as the methods instructor provided professional development for classroom teachers simultaneously with the methods course, encouraging the teachers to create “reform-friendly” classroom environments. Survey data from 68 prospective teachers involved in the project were analyzed to identify and describe relationships between course/practicum experiences and the degree to which they as practicing teachers, 1–3 years following the course/practicum, identified with a reform mathematics perspective, as well as to examine factors influencing those relationships. 相似文献
2.
Teachers’ Willingness to Adopt Nature of Science Activities Following a Physical Science Professional Development 总被引:1,自引:0,他引:1
The major science education reform documents emphasize the need for K-12 students to have a robust understanding of nature
of science (NOS), and inservice teachers consequently need to develop their NOS teaching repertoires. This study investigated
the extent to which science teachers were willing to adopt new strategies and activities for teaching NOS in their classrooms.
The participants were 36 elementary, middle, and high school teachers who were completing a year-long physical science professional
development (PD) that included NOS instruction. Data sources consisted of surveys (teachers’ NOS views, teaching practices),
collected work, and responses to post-PD follow-up questions. The professional development course was successful in that teachers
incorporated many of these strategies and activities into their own practice. This study also endeavored to identify factors
that facilitated the adoption of these new approaches to teaching NOS. While personal characteristics such as pre- or post-PD
NOS understandings, NOS gains, and grade level taught were not related to the number of NOS activities incorporated, teachers
from suburban and rural schools were significantly more likely to implement NOS activities. 相似文献
3.
ABSTRACTThis qualitative study explored elementary teachers’ perceptions about the effective features of explicit-reflective nature of science (NOS) instruction. Our participants were four elementary teachers from a public charter school located in the Southwestern U.S.A. The four elementary teachers participated in an academic year-long professional development about NOS which consisted of NOS training and NOS teaching phases. After each phase of the professional development, we specifically asked our participants which features of the explicit-reflective NOS instruction they found effective in improving their NOS conceptions by presenting pre- and post-profiles of their NOS conceptions. We identified nine features perceived by the participants as effective components of explicit-reflective NOS instruction: (1) specific focus on NOS content, (2) participation in hands-on NOS activities, (3) introductory NOS readings, (4) multiple types/forms of reflection, (5) multiple exposure to NOS content, (6) structural consistency in the presentation of NOS content, (7) the evaluation of secondary NOS data from elementary students, (8) the analysis of national and state science standards in terms of NOS content, and (9) NOS teaching experience. 相似文献
4.
Leigh Ann Haefner Carla Zembal‐Saul 《International Journal of Science Education》2013,35(13):1653-1674
This study examined prospective elementary teachers' learning about scientific inquiry in the context of an innovative life science course. Research questions included: (1) What do prospective elementary teachers learn about scientific inquiry within the context of the course? and (2) In what ways do their experiences engaging in science investigations and teaching inquiry‐oriented science influence prospective elementary teachers' understanding of science and science learning and teaching? Eleven prospective elementary teachers participated in this qualitative, multi‐participant case study. Constant comparative analysis strategies attempted to build abstractions and explanations across participants around the constructs of the study. Findings suggest that engaging in scientific inquiry supported the development more appropriate understandings of science and scientific inquiry, and that prospective teachers became more accepting of approaches to teaching science that encourage children's questions about science phenomena. Implications include careful consideration of learning experiences crafted for prospective elementary teachers to support the development of robust subject matter knowledge. 相似文献
5.
Dina Tsybulsky 《师资教育杂志》2019,45(3):244-261
The current phenomenological-qualitative case study examined the team teaching related experiences of 17 Israeli student teachers in the context of using the project-based teaching method in the course of their pedagogical practicum module conducted in elementary schools. The focus of the study was on participants’ experiences in terms of quality and content. Data collection methods included reflective reports and in-depth interviews. Data analysis was conducted using the qualitative method for content analysis. Findings of the study indicate that during team teaching, the student teachers underwent a process of four qualitatively different experiential stages, each of which is characterised by a unique set of experiences. There was also a qualitative difference at each stage between the experiences of student teachers who emerged with an overall positive assessment and those who emerged with an overall negative assessment of team teaching. The practical implications of the findings are discussed. This research contributes to the professional literature on the team teaching of science courses, and may serve to encourage educators to implement team teaching as part of student teachers‘ practicum involving a project based, student centred methodology. 相似文献
6.
This mixed‐methods investigation compared the relative impacts of instructional approach and context of nature of science instruction on preservice elementary teachers' understandings. The sample consisted of 75 preservice teachers enrolled in four sections of an elementary science methods course. Independent variables included instructional approach to teaching nature of science (implicit vs. explicit) and the context of nature of science instruction (as a stand‐alone topic vs. situated within instruction about global climate change and global warming). These treatments were randomly applied to the four class sections along a 2 × 2 matrix, permitting the comparison of outcomes for each independent variable separately and in combination to those of a control group. Data collection spanned the semester‐long course and included written responses to pre‐ and post‐treatment administrations of the VNOS‐B, semi‐structured interviews, and a variety of classroom artifacts. Qualitative methods were used to analyze the data with the goal of constructing profiles of participants' understandings of the nature of science and of global climate change /global warming (GCC/GW). These profiles were compared across treatments using non‐parametric statistics to assess the relative effectiveness of the four instructional approaches. Results indicated that preservice teachers who experienced explicit instruction about the nature of science made statistically significant gains in their views of nature of science regardless of whether the nature of science instruction was situated within the context of GCC/GW or as a stand‐alone topic. Further, the participants who experienced explicit nature of science instruction as a stand‐alone topic were able to apply their understandings of nature of science appropriately to novel situations and issues. We address the implications of these results for teaching the nature of science in teacher preparation courses. © 2010 Wiley Periodicals, Inc., Inc. J Res Sci Teach 48: 414–436, 2011 相似文献
7.
This study examined the views, and the retention of these views, of 19 preservice elementary teachers as they learned about nature of science (NOS). The preservice teachers participated in a cohort group as they took a science methods course during which they received explicit reflective instruction in nature of science. Through Views of Nature of Science version B (VNOS‐B) surveys and interviews it was found that most preservice teachers held inadequate ideas of nature of science prior to instruction, but improved their views after one semester of instruction in the science methods course. However, 5 months after instruction, the graduate preservice teachers were again interviewed and it was found that several of the students reverted back to their earlier views. The results are interpreted through Perry's scheme, and implications and recommendations for elementary science teacher education are made. © 2005 Wiley Periodicals, Inc. J Res Sci Teach 43: 194–213, 2006 相似文献
8.
Sarah J. Carrier Ashley N. Whitehead Temple A. Walkowiak Sarah C. Luginbuhl Margareta M. Thomson 《International Journal of Science Education》2013,35(13):1733-1754
ABSTRACTThe purpose of this qualitative study was to investigate the contributions of pre-service teachers’ memories of science and science education, combined with their experiences in a STEM-focused teacher preparation programme, to their developing identities as elementary school teachers of science. Data collected over three years include a series of interviews and observations of science teaching during elementary teacher preparation and the first year of teaching. Grounded within a theoretical framework of identity and using a case-study research design, we examined experiences that contributed to the participants’ identity development, focusing on key themes from teacher interviews: memories of science and science instruction, STEM-focused teacher preparation programme, field experiences, first year of teaching, and views of effective science instruction. Findings indicate the importance of exposure to reform strategies during teacher preparation and are summarised in main assertions and discussed along with implications for teacher preparation and research. 相似文献
9.
10.
Although emerging consensus exists that practice-based approaches to teacher preparation assist in closing the distance between university coursework and fieldwork experiences and in assuring that future teachers learn to implement innovative research-based instructional strategies, little empirical research has investigated teacher learning from this approach. This study examines the impact of a video- and practice-based course on prospective teachers’ mathematics classroom practices and analysis of their own teaching. Two groups of elementary prospective teachers participated in the study—one attended the course and one did not. Findings reveal that the course assisted participants in making student thinking visible and in pursuing it further during instruction and in conducting evidence-based analyses of their own teaching. Conclusions discuss the importance of teaching these skills systematically during teacher preparation. 相似文献
11.
Teacher education programs are being encouraged to collaborate with K‐12 partners to develop and implement contextually rich field experiences that integrate methods course instruction with public school practices. As a result, we outline four models of integrating methods instruction and field experiences and raise the question “How does the classroom and school context of the field experience influence what prospective teachers learned in the methods courses?” This study examines the way two different cohorts of prospective elementary teachers who learned to teach in two different contexts define their own social studies pedagogical content knowledge. The students' espoused philosophies of education offer insight into how different models of integrated field experiences may impact on their beliefs about social studies teaching. Through this study we raise questions that should be considered in constructing methods courses linked to field experiences and suggest Bronfenbrenner's model as a tool for looking at these contextual influences. 相似文献
12.
This investigation assessed the impact of situating explicit nature of science (NOS) instruction within the issues surrounding
global climate change and global warming (GCC/GW). Participants in the study were 15 preservice elementary teachers enrolled
in a science methods course. The instructional intervention included explicit NOS instruction combined with explicit GCC/GW
instruction situated within the normal elementary science methods curriculum. Participants’ conceptions of NOS and GCC/GW
were assessed with pre- and postadministrations of open-ended questionnaires and interviews. Results indicated that participants’
conceptions of NOS and GCC/GW improved over the course of the semester. Furthermore, participants were able to apply their
conceptions to decision making about socioscientific issues. The results provide support for context-based NOS instruction
in an elementary science methods course. 相似文献
13.
Sarah J. Carrier 《Journal of Science Teacher Education》2013,24(2):405-425
Science vocabulary knowledge plays a role in understanding science concepts, and science knowledge is measured in part by correct use of science vocabulary (Lee et al. in J Res Sci Teach 32(8):797–816, 1995). Elementary school students have growing vocabularies and many are learning English as a secondary language or depend on schools to learn academic English. Teachers must have a clear understanding of science vocabulary in order to communicate and evaluate these understandings with students. The present study measured preservice teachers’ vocabulary knowledge during a science methods course and documented their use of science vocabulary during peer teaching. The data indicate that the course positively impacted the preservice teachers’ knowledge of select elementary science vocabulary; however, use of science terms was inconsistent in microteaching lessons. Recommendations include providing multiple vocabulary instruction strategies in teacher preparation. 相似文献
14.
Marco A. Bravo Eduardo Mosqueda Jorge L. Solís Trish Stoddart 《Journal of Science Teacher Education》2014,25(5):601-619
In this paper we present findings from a project that documented the development of preservice teachers’ beliefs and practices in delivering science instruction that considers issues of language and culture. Teacher candidates in the intervention group (n = 65) received a science methods course and teaching practicum experience that provided guidance in teaching science in culturally and linguistically responsive ways. Comparisons between a control group of preservice teachers (n = 45) and those involved in the intervention yielded stronger beliefs about the efficacy in promoting collaboration in science teaching than the intervention group. Observations of these preservice teachers during their teaching practicum revealed differences in favor of the intervention group in: (a) implementing science instruction that addressed the language and literacy involved in science; (b) using questions that elicited higher order thinking and; (c) providing scaffolds (e.g., purposeful feedback, probing student background knowledge) when confronting abstract scientific concepts. Implications for preservice teacher education are addressed. 相似文献
15.
Preservice Science Teachers' Beliefs About Teaching and Learning: The Influence of K-12 Field Experiences 总被引:1,自引:0,他引:1
Teaching is a complex task shaped by many external and internal influences, including the beliefs held by individual teachers. This study sought an understanding of the impact of field experiences on the beliefs developed by preservice science teachers. The participants were students in an undergraduate science education methods course that involved observation and teaching experiences in K-12 classrooms. The data used in this qualitative study included drawings representing beliefs and in-depth interviews with selected participants. The findings indicate that beliefs focused on two key dualities: learning through experience and transmission and student-centered and teacher-centered instruction. The findings also suggest that field experiences both reinforce and challenge the beliefs held by preservice science teachers. 相似文献
16.
Using the National Research Council's inquiry continuum framework, we use a multiple-case study research design to investigate the teacher- and student-directedness of elementary preservice teachers’ planned and enacted science lessons and their pedagogical reasoning about science instruction during a semester-long science methods course. Our specific research questions were (1) What ideas do elementary preservice teachers bring to a science teaching methods course about the inquiry continuum? and (2) How do their ideas about the inquiry continuum change over the course of the semester through engaging in planning, enactment, and reflection upon science instruction? Participants’ course artifacts (journals, reflective teaching assignments, and lesson plan rationales), interviews, and field observations of their enacted science lessons served as data for this study. Findings show that although the preservice teachers began the semester defining inquiry as highly student-directed, their ideas and definitions broadened over the course of the semester to include and embrace more teacher-directed forms of inquiry. Their early science lessons were more student-directed but, as they encountered challenges engaging in inquiry-based instruction and increasingly emphasized students’ learning needs, they began to plan and enact lessons that were more teacher-directed. Teacher education programs need to explicitly emphasize these variations of inquiry as a core component of supporting preservice teachers’ learning to teach science as inquiry. 相似文献
17.
Michele M. Nelson Elizabeth A. Davis 《International Journal of Science Education》2013,35(12):1931-1959
Part of the work of teaching elementary science involves evaluating elementary students' work. Depending on the nature of the student work, this task can be straightforward. However, evaluating elementary students' representations of their science learning in the form of scientific models can pose significant challenges for elementary teachers. To address some of these challenges, we incorporated a modeling-based elementary science unit in our elementary science teaching methods course to support preservice teachers in gaining knowledge about and experience in evaluating students' scientific models. In this study, we investigate the approaches and criteria preservice elementary teachers use to evaluate elementary student-generated scientific models. Our findings suggest that with instruction, preservice elementary teachers can adopt criterion-based approaches to evaluating students' scientific models. Additionally, preservice teachers make gains in their self-efficacy for evaluating elementary students' scientific models. Taken together, these findings indicate that preservice teachers can begin to develop aspects of pedagogical content knowledge for scientific modeling. 相似文献
18.
Lasisi Ajayi 《Educational Research for Policy and Practice》2014,13(3):251-268
In this article, I argue for the need to improve teacher preparation (TP) courses for elementary education student teachers to teach English-language arts (ELA). In particular, these TP programs need to support student teachers in delivering culturally responsive pedagogy within rural classrooms. Twenty-three student teachers participated in this research, which was aimed at investigating effective teaching pedagogy both within a place-based TP course and within teaching experiences within a rural border county. The student teachers took a course in literacy methods for 16 weeks, taught ELA in elementary schools using specific methods, and participated in videotaped collaborative reflections. Data collection for the study involved the student teachers’ responses to reflective questions, field notes, and evaluative essays. The findings suggested that providing student teachers with project-based, cooperative, inquiry-based activities, as well as opportunities for collaborative reflection during their university classes provided a learning context for the student teachers that connected ELA instruction to the economic situations of the rural communities. In addition, the findings indicated that the activities prepared the student teachers to develop the skills to relate instruction to people, culture, and social practices of rural the communities, value pupils’ local knowledge and community resources, and learn from diverse perspectives and experiences of their peers. 相似文献
19.
Lawrence C. Scharmann 《科学教学研究杂志》1989,26(8):715-726
Science educators have claimed that well-conceived instructional strategies and curricular sequences, emphasizing the process aspects of science, will foster an understanding of the nature of science. Furthermore, a process emphasis on science has been cited for its ability to promote logical thinking skill, develop a locus of control “shift,” and enhance science content acquisition. The intent of this investigation was to examine the purported influence and developmental nature of a science process emphasis during a given semester of study, as well as over extended curricular sequences, each sequence being representative of three recognized preservice elementary science teacher preparatory programs. Data were collected from 135 elementary preservice teachers enrolled in science teaching methods courses at the endpoint of one of three sequences: (a) introductory process instruction with three subsequent semesters of integrated science content and teaching methods, (b) process instruction with separate subsequent content and teaching methods, and (c) only science content with subsequent teaching methods. Another 29 preservice teachers, assessed prior to entry into instructional sequences, provided a cross-sectional sample for examining developmental changes in locus of control, logical thinking, nature of science, and science content knowledge. Statistical procedures included Kruskal-Wallis ANOVA and Wilcoxon tests. Results indicated that a one-semester process skills course was influential in developing a basis for science content acquisition and in fostering an understanding of the nature of science. Results further indicate that expected additional gains are significant in science content acquisition through matriculation in an extended curricular sequence. Implications for science educators are discussed. 相似文献
20.
Lawrence C. Scharmann 《科学教学研究杂志》1988,25(7):589-604
The intent of this study was to investigate the influence of both locus of control as well as three instructional strategies, which differed in their respective emphases on science content, teaching methods, and process science, to foster an understanding of the nature of science. Data were collected from 135 elementary preservice teachers enrolled in science teaching methods courses at the endpoint of three sequences: (a) introductory process instruction with three subsequent semesters of integrated science content and teaching methods, (b) process instruction with separate subsequent content and teaching methods, and (c) only science content with subsequent teaching methods. Statistical procedures included ANOVA, regression, and correlation. Results revealed that the nature of science was most predictable for a separate process/content/teaching methods strategy. Major conclusions were (1) logical thinking ability was the most influential predictor of understanding the nature of science and (2) separate rather than integrated experiences in content and teaching methods were superior in developing an understanding of the nature of science. Implications for preservice elementary teacher preparation are discussed. 相似文献