• Journal of Gifted/Talented Education
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• v.12 no.4
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• pp.46-71
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• 2002

The purpose of this study was to develope a high school level physics curriculum for the gifted in science. The research method for this study was Delphi Survey, which is appropriate for social agreement of experts in a certain area. For the Delphi survey, 11 experts of gifted education in physics field, who consist of 4 physics professors, 3 physics education professors, and 2 science high school teachers, and 2 experts in other institutes, were sampled intendedly. In first survey, free description questions about objectives, contents, teaching methods, and achievement test methods were asked, and their answers were analyzed by frequency. And then, frequent answers were adopted and elaborated. In second survey, they were asked to write numbers according to priority(degree of agreement) for the adopted and elaborated answers in each area. Finally, by analyzing the results of second survey, the physics curriculum for the gifted was developed.

• 한국정보교육학회:학술대회논문집
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• 2007.01a
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• pp.365-372
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• 2007

뇌파는 대뇌피질에 분포하는 신경세포의 활동을 객관적으로 명확하게 표현해주기 때문에 학습자의 두뇌기능을 과학적으로 평가해준다. 따라서 학습에 의한 직접적인 효과를 알아보기 위해서는 두뇌사고활동을 수행하는 과정에서 학습자의 두뇌기능 상태에 대한 객관적인 검증이 필요하다. 또한 학습자의 학습과정에서의 활성뇌파를 분석 해봄으로써 학습에 영향을 미치는 뇌파가 무엇인지를 파악할 수 있다. 본 연구는 학습 및 학습에 영향을 미치는 정서와 관련된 뇌파연구를 고찰함으로써 영재아의 학습효과를 높이기 위한 뇌파 분석 및 조절 프로그램을 개발하는데 시사점을 찾아보고자 한다.

• 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 Gifted/Talented Education
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• v.20 no.1
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• pp.317-346
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• 2010

The purpose of this study was to investigate the changes in teachers' recognition of science class and children for the gifted, and the process of changes in their practical knowledge after the experience of science class and conversation with colleague teachers. Two elementary teachers, teacher A and B, were selected as subject of investigation, who wanted to improve their science class. They experienced the process of self-examination during their class and from class conversations. Teacher A has 10 years of teaching experience. She has been in contact with gifted children and observed them since undergraduate. She entered the graduate school since she came to be interested in science class and children for the gifted. While teacher B has only three years of teaching experience and had a first contact with the gifted after graduate school. The results of this study are as follows. Teacher A didn't change recognition of gifted children class by class conversation in short term because she had a firm faith in good class teaching and was rich in class teaching knowledge. And, her practical knowledge was applied to the next class by changing teaching method or by supplementing her class contents in concerned part through class observation and class conversation with her colleagues. Teacher B was characterized as being lack of class confidence and concerned more about subject knowledge. She was forming a new practical knowledge along with new class teaching knowledge. Teacher B was in trouble with applying new practical knowledge to next class. From such findings, it was concluded that the process of changing or forming of practical knowledge depends on the beliefs, values, experiences, or knowledges of each teacher. A reflection on one' own class teaching could be a good way to form a practical knowledge and improve teaching speciality, when it was concerned with self-reflection of their own class, class observation, and communication with colleagues. Thus, the reflection practice could be applied to the teaching program of teachers for the gifted to form practical knowledge through trial class, self-reflection of class, and conversation with colleagues.

• Journal of Fisheries and Marine Sciences Education
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• v.27 no.2
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• pp.505-515
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• 2015

This study aimed at identifying the differences between gifted students and general students in parental attitude toward science and trust perceived by them and their science self-efficacy. To achieve this purpose, a quantitative research was carried out for elementary gifted and general students. The results were as follows. Firstly, Gifted students recognized more positively their parents' attitude toward science than general students, and both of groups perceived more positively their mothers' than fathers'. Secondly, Parents' trust by gifted students was perceived more positively than by general students, but showed no difference between fathers and mothers. Thirdly, The average of science self-efficacy for gifted students was statistically meaningfully higher than for general students.

• Journal of Science Education
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• v.41 no.3
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• pp.499-518
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• 2017

In this study, the meta-analysis technique was applied to investigate the effectiveness of gifted-mathematics programs on development of creativity. Studies conducted the outcomes form the 20 studies were used for meta-analysis. Research questions are as follows; first, what is the overall effect size of the gifted mathematics programs on development of mathematical creativity. Second, what are effect sizes of sub-group(fluency, flexibility, originality) analysis. Third, compare the effect sizes of those in compliance with the grade and the class type. Results from data analysis are as follows. First, the overall effect size for studies related the gifted-mathematical programs was .66, which is high. Second, it was found that each sub-group differed from its effect on learning outcomes. Fluency(.76) was the highest of all, which was followed by flexibility(.60) and originality(.50) in a row. Lastly, the overall effect size for gifted elementary school students related the gifted-mathematical programs was .69, which is high than gifted middle school students was .46.

• Journal of Gifted/Talented Education
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• v.14 no.4
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• pp.47-70
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• 2004

We analyzed the validity of Science Highschool's selection process for the students from Science Gifted Education Center in order to suggest the direction of improvement. First of all, we invested the students' achievement in Mathematics and Science. As a result, we found that the students are not so good at mathematics and science through the selection process for the students from Science Gifted Education Center. However the difference is not statistically meaningful. On the contrary, The achievement of the students from Science Gifted Education Center is above average who were selected through the other course, e. g. the students who acquired the recommendation of principal, winner of prize in Olympiad of Mathematics or Science. We didn't find any meaningful result in the investigation of Affective Domain in Science. And then we found that the students prefer the generous environment through the selection process for the students from Science Gifted Education Center. As a whole, the selection process for the students from Science Gifted Education Center was not so satisfying. It should be reformed; we should examine the students' portfolio on the activities in the Science Gifted Education Center, and the entrance examination should include both divergent and convergent problems to find out the students' creativity. And the 3 dimensional process is also essential through the multiple steps.

• The Journal of the Korea Contents Association
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• v.15 no.3
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• pp.57-67
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• 2015

The aim of this study was to categorize and analyze the patterns of the observation type in the experiential learning through the science museum for elementary gifted students in science. Ten science-gifted students were included and analyzed in this study and during experiential learning in the science museum, the participants freely expressed their observation of their own languages and all observations and dialogue were recorded. The results are listed below. The cognitive aspect, especially question and response activity without their personal opinion, was the most frequently used item. Among the affective aspects, item for 'recommendation' was often used. In accordance to observation type, most participants overall observed single object independently of time. Also, participants mostly observed objects visually using qualitative method without manipulation. Therefore verbal interaction through question might have a positive effect on frequency and diversity of observation. Project learning, such as particular exhibition hall, exploratory time of concentration by students, or study paper will be capable of creating a effective observation learning in order to induce a variety of observation of science gifted students in the experiential learning through the science museum.

• Korean Journal of Child Studies
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• v.24 no.3
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• pp.1-13
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• 2003

The present study examined gender differences between science-gifted students and general students in creative thinking, personality, environment and performance in science. Subjects were 171 eighth grade students, 66 gifted in science and 105 general students. Data were analyzed by ANOVA and Stepwise Multiple Regression. Sex differences between the science-gifted and general students were found only in several subcategories of the dependent variables. The most critical predictors of creative performance in science were the title abstraction factor in gifted boys and general girls, and the resistance of enclosing factor in general boys.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2008.10a
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• pp.491-495
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• 2008

The purpose of this study is to analyze the characteristics of IT gifted middle school students. The researcher analyzed the observational assessments of 16 gifted noddle school students through 19 education programs conducted from During the latest 3 years at the Science Gifted Children Education Center. The researcher hypothesized that IT gifted children would be outstanding in computer skills and information processing abilities. But they were not much different from gifted children in the other areas. Therefore there are two suggestions resulted from the study. First, it might not be meaningful to sub-categorize the subjects because of their developmental stages. The tenth grade students observed in this study were in their formal operational period by Piaget. Therefore, it would be desirable to teach them integrated areas rather than separated areas. Second, gifted children could be excellent in most areas. Due to their curiosity, task tenacity, and intellectual abilities, they could show excellence in any areas. Therefore, it is important to elaborate the educational programs so that the gifted children can develop their abilities in each areas.