Journal of The Korean Association For Science Education
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v.25
no.6
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pp.635-641
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2005
This paper suggests a research & education (R&E) model for the gifted in science education. The model has been developed under three assumptions. The first is that using the sequences of a gifted educational program designed to facilitate the process will assist in gifted students' construction of scientific knowledge and comprehension of laboratory practice through concrete experimental experience. The second is that gifted students will be able to apply this learning to further study using and extending scientific knowledge and experience. The third is that challenging tasks and feedback at the requisite stage of development will improve instructional effectiveness. The R&E Model has five phases: engaging, exploring, planning, performing and elaborating; furthermore, it suggests roles for the mentee and mentor. The R&E model has two functions for gifted education. The first is providing guidance for gifted curriculum developers as they design a mentor program, and the second is helping a mentor improve instructional effectiveness through use of strategies. This model has potentials to educate the gifted students in the Science Education Institute for the Gifted.
In order to investigate the composition and characteristics of instructional objectives in a teaching-learning material for gifted elementary students in science, 217 instructional objectives across 13 themes in 4 areas of 'energy','materials', 'life' and 'earth' were analyzed by Bloom's revised taxonomy of educational objectives. Four types of factual, conceptual, procedural and meta-cognitive knowledge in knowledge dimension were all comprised in the objectives. Conceptual knowledge was primary constituent of the objectives and the proportion of factual knowledge was the least. On the other hand, all 6 categories of 'remember', 'understand', 'apply', 'analyze', 'evaluate' and 'create' in cognitive process dimension were also comprised in the objectives. The category of 'understand' was primary constituent and that of 'remember' was the least one. While conceptual knowledge in knowledge dimension was primary constituent of the objectives in 'energy', 'materials' and 'earth' areas, procedural knowledge was the most objectives in 'life' area. The least type of knowledge was factual knowledge in all 4 areas. In cognitive process dimension, the category of 'understand' was primary constituent and that of 'remember' was the least one in all 4 areas. In conclusion, it was showed that the instructional objectives in the teaching-learning material reflected the characteristics of educational objectives for gifted students in science.
Journal of The Korean Association For Science Education
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v.31
no.6
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pp.970-985
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2011
In this study, we analyzed secondary science teachers' needs for mentoring programs improving their professionalism in science-gifted education. A survey was administered to 111 teachers who had experience in teaching science-gifted secondary students in Seoul. Analyses of the results indicated that most teachers needed the mentors' support in science content knowledge, knowledge of beliefs about science-gifted education, knowledge of science-gifted students, knowledge of instructional strategies for science-gifted education, knowledge of curriculum for science-gifted education, knowledge of assessment in science-gifted education, and knowledge of external factors influencing in implementing science-gifted education. Most teachers, especially having the perceptions of lower levels of professionalism, relatively needed more mentors' support in the knowledge of the instructional strategies for science-gifted education and the knowledge of assessment in science-gifted education. Most teachers wanted the mentors' supports for all subcategories of professionalism at the planning stage of the classes, and some did the support for some subcategories at the performance stage and the reflection-evaluation stage of the classes. They also relatively wanted more mentors' support for all subcategories of professionalism through lectures and/or group discussions, some did the support through face-to-face interviews and/or real-time or non real-time online interviews. They variously responded in the suitable ratio of mentors and mentees, and perceived positively the qualities required to mentor as well as the necessary factors for the effective use of mentoring.
The purpose of study was to explore science teachers' practical knowledge on teaching the gifted in science; namely, what kinds of instructional methods did they perceive as effective approaches based on their teaching experience with the gifted? Twelve science teachers who had 4-11 years of teaching experiences with the gifted students at the gifted center under the local educational offices participated in the study. The data source included in-depth individual interviews with the teachers. In results, the teachers became more aware of the academic potentials and characteristics of the students and had made efforts to develop their instructional methods more fitting to the characteristics and needs of the gifted. They emphasized four instructional aspects: 1) experience of authentic inquiry process and methods, 2) group activities focusing on leadership, communication and collaboration, and empathetic attitudes, 3) tasks promoting creative and convergent thinking, and 4) career awareness in the field of science, technology, and engineering. It is expected that this study provides more practical implications and insights for novice science teachers in the gifted education.
Providing gifted education should be based on the principle of differentiation, that is, paying close attention to the individual characteristics of the gifted. The gifted are known to be the fast learners with autonomous studying ability and high levels of thinking and creativity, which certainly differentiate them from the ordinary others. Thus, the program for the gifted should fundamentally differ from other general programs. The need for gifted education is growing as our society has turned into the knowledge-based society. Fortunately, on December 28th, 1999, a law in favor of gifted education was passed. According to the law, gifted education will be actively provided under the government's support from the year 2002. In this context, this study is intended to search for the model of developing instructional materials for the gifted. The output materials of this study are to be used in gifted schools which will be built in the near future. The curriculum for the gifted consists of three parts: basic curriculum, in-depth curriculum, and optional curriculum. The learning and instructional materials developed in this study are to be used for the in-depth curriculum. In order to develop the materials, various theoretical models related to gifted education were reviewed. Finally, a theoretical model was developed. On the basis of the model, several instructional materials are developed and the possibility of application are considered.
This study aims to compare the difference between the recognition of professionalism and teaching efficacy of the gifted education teacher by majoring in education for the gifted from the graduate school. The subjects were 44 graduate students in gifted education major and 56 gifted education teachers of elementary school who did not major in the education for the gifted. The results were as follows. First, the education for the gifted children majors showed higher statistical significance in the subject knowledge, the instructional strategies, the understanding gifted student, personal efficacy and outcome expectancy than the teacher who did not major in the education for the gifted children (p<.05). Second, in the results of Two-Way ANOVA by the major status in education for the gifted children and the gender, there was the interaction effects in the subject knowledge, the understanding gifted student, personal efficacy, and the females were influenced by the recognition of professionalism and teaching efficacy by the major status in education for the gifted children more than males. In the results of analysis on the major status in education for the gifted children and career for gifted education, the instructional strategies and personal efficacy showed the significant interaction effect (p<.05). Third, in the results of analysis on the relations between the recognition of professionalism and the teaching efficacy, all subordinate scopes of the recognition of professionalism and teaching efficacy showed the significant positive correlation (p<.05). In the results of the multiple regression analysis, the subject knowledge and the instructional strategies have effects on the personal efficacy. So the majoring in education for the gifted children from the graduate school may have significant effects on development of the subject knowledge and the professionality of the instructional strategies of the gifted education teacher, further, it can be said that has positive effect on teaching efficacy.
The Interdisciplinary-Multistrategic Science Education Program(IMSEP) is designed as an efficient program for the education of the gifted in science. An example of the contents is developed, which encompasses mathematics, physics, chemistry, astronomy, and biology. In the program, the complexity(interdisicplinarity) of scientific contents and instructional strategies used to deliver the scientific contents are designed to be correlated to each other in such a way that as the scientific contents gets more complex, the scientific skill to be taught by the instructional strategy becomes deeper. Through the careful balance between the scientific contents and the instructional strategies student's scientific knowledge and scientific skill will develop balanced and the effectiveness of science education will be maximized.
Journal of The Korean Association For Science Education
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v.31
no.8
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pp.1214-1228
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2011
As a case study on beginning teachers' teaching professionalism in science-gifted education, we analyzed their teaching professionalism based on pedagogical content knowledge. To do this, we selected 3 elementary and 3 secondary beginning teachers from science-gifted education institutes in the metropolitan area. After their science instructions for science-gifted students were observed, in-depth interviews were conducted. Analyses were conducted with taped videos, researcher's field notes, and transcripts for in-depth interviews. This study revealed that most of the teachers had relatively desirable belief about science-gifted education. However, they tended to have a little deficient practical knowledge about science-gifted students, the curriculum for science-gifted education, science contents, the instructional strategies for science-gifted education, and the assessment in science-gifted education. These results imply that many teachers are likely to have a little deficiency in teaching professionalism for science-gifted students in various aspects, and need to find the ways of improving their teaching professionalism.
This study investigated the characteristics of elementary science-gifted education teachers' reflection on their science teaching. To do this, the reflective journals of 33 elementary science-gifted education teachers were analyzed in terms of 'productive reflection'. The results revealed that most of reflective journals included the aspects of 'instructional strategies and instruction for science-gifted education (100.0%)' and 'science-gifted students (90.9%)'. 'Curriculum for science-gifted education (42.4%)' was also frequently included although fewer than two previous aspects. However, 'subject matter knowledge' and 'assessment in science-gifted education' were included less than 10%. The mean score of the inclusion scores was 2.48 on a scale of 5 points and was not significantly correlated with the teaching careers in science-gifted education. 18.2% of the journals showed no integrations, which were unproductive reflection. 66.7% of the journals integrated only two aspects and 24.2% of the journals integrated three aspects. Only 6.1% of the journals integrated four aspects and no journals integrated all five aspects. Especially, the integrations between 'science-gifted students (81.8%)' or 'instructional strategies and instruction for science-gifted education (81.8%)' and the other aspects were most frequent. The integrations between 'Curriculum for science-gifted education (30.3%)' and the other aspects were also frequently included. However, the integrations between 'subject matter knowledge (6.1%)' or 'assessment in science-gifted education (0.0%)' and the other aspects were hardly included. The mean score of the integration scores was 2.12 on a scale of 5 points and was not significantly correlated with the teaching careers in science-gifted education.
Journal of The Korean Association For Science Education
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v.33
no.2
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pp.373-389
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2013
This study investigated secondary beginning science-gifted education teachers' reflection on their science teaching through coteaching with the case study. We selected two beginning teachers whose teaching careers in secondary science-gifted education were less than five years. The teachers planned, performed, and reflected together their science teaching for science-gifted students during nine class hours over three times. We observed their science classes through coteaching, and analyzed the transcripts for reflective discussions between them and their reflective journals in terms of 'productive reflection,' a concept suggested by Davis (2006). The results revealed that the aspects of 'instructional strategies and instruction for science-gifted education' and 'science-gifted students' were most frequently included in their reflection processes on science teaching, regardless of the type of data and the class time. 'Curriculum for science-gifted education' were also frequently included although fewer than two previous aspects. However, 'subject matter knowledge' and 'assessment' was hardly included. Two to four aspects among five aspects of the science teaching for science-gifted students were variously integrated in their reflection processes. Especially, the integrations between 'instructional strategies and instruction for science-gifted education' or 'sciencegifted students' and the other aspects were most frequent, and this tendency was stronger in more experienced teacher in science-gifted education. The integrations between 'subject matter knowledge' and the other aspects were often included in the more experienced teacher's reflection processes.
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