• Journal of Gifted/Talented Education
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• v.20 no.1
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• pp.79-106
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• 2010

Leadership education is part of the goals of special education for the gifted of computer science. However, there has been little research effort on leadership curriculums and programs specially designed for the gifted of computer science by reflecting their characteristics. Thus this paper was conducted to design educational contents of leadership for the gifted of computer science as follows:First, common elements were extracted from the goals and characteristics of special education for the gifted of computer science and from the previous studies through analysis. Then basic data were selected helpful to choose educational contents of leadership for the gifted of computer science. Second, the definitions and characteristics of leadership were analyzed along with the previous studies to find common elements. By defining relations between the gifted of computer science and leadership, the investigator also examined the leadership characteristics to be considered when choosing educational contents. Third, educational contents of leadership for the gifted of computer science were selected and designed based on the leadership elements developed by the Korean Educational Development Institute(2005). Fourth, leadership activity logs and reading materials were developed of the education for the gifted of computer science based on the educational contents for their leadership. And fifth, Delphi analysis was carried out to test the validity of the leadership activity logs and reading materials developed in the study in two sessions; the first one tested the overall design of the educational contents, and the second one did the detailed contents of the activity logs and reading materials.

• Journal of Korean Elementary Science Education
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• v.40 no.4
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• pp.421-432
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• 2021

This study compared science academic passion between elementary general and science-gifted students. A science academic passion test was conducted for fifth-sixth graders at an elementary school, and two gifted science education institutes in Seoul, with 95 and 92 students selected for the test. The result analysis revealed that the science-gifted students' science intellectual passion was significantly higher than general students, regardless of grade and gender. Also, the scores of general students were high in the order of "harmonious passion," "importance," "like," "time/energy investment," and "obsessive passion." The differences in scores between all sub-domains were statistically substantial. Moreover, there were no considerable differences in scores of the science-gifted students among the "important," "like," and "harmonious passion." However, the scores in these three domains were higher than that of "time/energy investment" and "obsessive passion." In addition, the "time/energy investment" score was higher than that of "obsessive passion." The differences in science academic passion by grade and gender were not statistically significant regardless of whether or not a student was science gifted. These results suggest that science academic passion characterizes science-gifted students rather than personal characteristics such as grade or gender.

• Journal of Korean Elementary Science Education
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• v.34 no.1
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• pp.131-141
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• 2015

본 연구에서는 과학 영재와 일반아의 창의적 추리과정시 나타나는 두뇌사고 패턴을 sLORETA 분석 기법을 통해 분석하고, 신경생리적 특성을 파악하여 과학 영재아 판별의 기초와 활용 가능성을 알아보는 것이다. 본 연구를 위한 대상자는 과학영재아 6명과 동일 학군 및 학년에 속한 일반아 6명으로 총 12명의 오른손잡이로 하였다. 창의적 추리과정을 위해 사용된 과제는 레이븐 도형점진행렬검사를 사용하였고, 안정상태와 과제 수행간 뇌파를 측정하였다. 뇌파는 19개의 전극을 통해 수집된 16초간의 데이터를 통해 분석하였으며, sLORETA 분석 기법을 통해 8개의 주파수 대역(Delta, Theta, Alpha-1/2, Beta-1/2, Gamma, Omega)에 대한 평균 전류밀도값을 그룹별로 비교하였다. 그룹간 두뇌 활성 주파수 대역을 비교한 결과 눈감고 안정 상태에서 과학영재아가 일반아에 비해 알파-2 대역에서, 레이븐 과제 수행시 과학 영재아가 일반아에 비해 알파-1과 감마 대역에서 강한 활성이 관찰되었다. 연구 결과 나타난 알파 및 감마 대역 활성과 우반구로의 기능적 편측화(Lateralization)는 창의적 문제 해결시 영재아에게 나타나는 대표적 특성 중 하나이며, 배외측전전두피질(DLPFC)의 활성은 과학영재아의 높은 유동지능을 반영하는 결과라 볼 수 있다.

• Journal of Gifted/Talented Education
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• v.19 no.2
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• pp.353-380
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• 2009

The significant reason for studying computer science lies in the efficient resolution of various problems which can arise in actual life. Consequently, algorithm education is very important in the computer science and plays a great part in helping to enhance the creative ability to solve problems and to improve the programming ability. However, the current algorithm education at an computer science educational institute for the gifted has inadequate systematic quality and is only treated as a part of programming education. From this perspective, this paper carried out following studies in order to design the algorithm education for elementary computer science prodigies. First, the core educational contents was selected by extracting the common elements from existing books related to algorithm education, common study contents on algorithm lesson websites and the study area of ACM's computer algorithm. Second, using the development criteria and selected educational contents, the educational theme for the If weeks load was set. Additionally, the algorithm educational contents were designed for the elementary computer science prodigy based on such theme. Third, the activity site for the use of prodigy educational institute was developed with the background in the educational contents for the elementary computer science prodigy. Fourth, the Delphi analysis technique was used to verify the appropriateness of contents and activity site developed in this paper. It was carried out in 2 separate processes where the first process verified the design of educational contents, and the second process verified the appropriateness of developed activity site.

• Journal of Korean Elementary Science Education
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• v.40 no.3
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• pp.283-294
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• 2021

The purpose of this study is to examine the trends of science gifted education-related research for the last 5 years using LDA topic modeling. To achieve the purpose of the study, 2,404 keywords of 292 domestic academic papers were analyzed using RISS, KISS, and DBpia. The main results were as follows. First, the number of researches in science gifted education has been decreasing since 2019. In the science gifted education research, the top 10 keywords were 'students', 'program', 'elementary school', 'class', 'creativity', 'gifted education', 'awareness', 'teacher', 'education', and 'activity'. Second, as a result of topic modeling analysis, 10 topics were derived. Research topics mainly conducted in science gifted education for the past five years are 'Affective characteristics of science gifted students', 'Characteristics of science gifted students in middle school', 'Development and application of science gifted education programs', 'Education programs of science gifted high school', 'Cognitive characteristics of science gifted students', 'Policy of science gifted education', 'Science gifted students and creativity', 'Research conducting education by science gifted students', 'Academic and career choice of science gifted students', 'Science concept of science gifted Students'. In the past, the proportion of specific topics was relatively high, but the proportion between topics does not differ significantly as 2019 approaches. Therefore, it can be confirmed that the more recent it comes, the more research is being conducted evenly without being biased toward one subject.

• Journal of Gifted/Talented Education
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• v.9 no.2
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• pp.103-130
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• 1999

• Journal of The Korean Association For Science Education
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• v.26 no.3
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• pp.307-316
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• 2006

The purpose of this study was to analyze intellectual characteristics of elementary students in science-gifted education. For this, 72 science-gifted students were selected. Multiple intelligences, creativity, and the science process skills of these students were tested. To compare these traits with those of general students, 78 general students were also tested. The results of this study indicated that science-gifted students significantly surpassed general students in the areas of logical-mathematics, intra-person, and naturalist. Especially, the intelligences of logical-mathematics and intra-person were strong point of the science-gifted students. But music intelligence among the 8 intelligence was weak point. Creativity and the science process skills of the students in science-gifted education excelled those of general students. Therefore, to enhance the efficiency of the science-gifted education program in elementary school, it is necessary to consider the intellectual characteristics of the students.

• Journal of the Korean Chemical Society
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• v.57 no.6
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• pp.789-800
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• 2013

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.

• Proceedings of the Korean Society for the Gifted Conference
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• 2003.11a
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• pp.187-197
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• 2003

오늘날 지식정보사회에서는 국가의 과학기술이 그 나라의 국가 경쟁력을 좌우하게 되기 때문에 우수한 잠재력을 가진 영재를 조기에 육성하고 교육하는 일은 매우 중요하다. 특히 요즘처럼 지식정보사회로의 전환이 급속도로 진행되고 있는 현실을 고려해 볼 때에 영재교육 중 정보과학영재교육의 중요성은 더욱 커지고 있다. 사람들은 흔히‘영재’라는 이유로 기초가 되는 부분을 소홀히 하고 넘어가는 경우가 많다. 정보과학영재를 위한 교육과정 중 기초기술소양교육도 마찬가지였다. 대부분 프로그래밍 같은 고급기술을 요하는 것만 중시하지 워드프로세서나 프리젠테이션 프로그램 활용 같은 컴퓨터 사용에 기본이 되는 것들은 간과하고 넘어가는 경우가 많았다. 하지만 기초가 단단해야 튼튼한 건물을 지을 수 있고, 뿌리가 깊어야 바람에 안 흔들리듯이 정보과학영재를 위한 교육과정 중 기초기술소양교육의 중요성은 무시할 수가 없다. 특히 컴퓨터에 대한 강한 호기심과 높은 창의력등 정보과학영재로써의 많은 것을 갖추고 있지만 단지 기초기술이 부족한 아동은 정보과학영재가 아니라고 단정지어 말 할 수가 없기 때문에 기초기술소양교육은 매우 필요한 것이다. 따라서 본 논문에서는 정보과학영재교육의 필요성과 초등정보과학영재를 위한 기초기술소양교육의 필요성을 생각해 보고, 현재 일반적으로 이루어지고 있는 기초기술소양교육을 분석해 보고 단편적인 기능이 중심이 아닌 문제 해결 중심의 새로운 기초기술소양교육방안을 제시하고자 한다.

• Journal of Science Education
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• v.35 no.1
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• pp.23-33
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• 2011

The purposes of this study were to analyze the effects on scientific creativity of the Science Gifted Program, to survey recognition of gifted learners on the Program, and to obtain implications for the development direction of guidance program. The subjects of this study were 20 persons of the class for the gifted in an elementary school science, which belonged to Education Institute for the Gifted, Office of Education in Jeju city. The Science Gifted Program were applied during 28 times. The effects of the program were analyzed using the scientific creativity test, recognition questionnaire and interview of the Science Gifted Program. The results of this study were as follows. First, after applying Science Gifted Program, the scientific creativity of the gifted in science was enhanced. Especially, fluency was enhanced most remarkably. Second, after applying Science Gifted Program, students stated that they had the positive feeling about this program. The suggestions of results of recognition questionnaire of the Science Gifted Program were as follows. First, the Science Gifted Program must include experiment and research of subject. Second, it is necessary to guide concretely of the learning method before beginning of the Science Gifted Program. Third, it is necessary to control content level and quantity of the task for the student's easy comprehension.