• Journal of Gifted/Talented Education
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• v.15 no.2
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• pp.77-100
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• 2005

This study attempted a new approach to the methods of identifying the scientifically giftedness in relation to the recent emphasis on the education for the scientifically gifted. This study focused on the processes of the cognition achievements, while only the results have been studied until now. Theoretical backgrounds about the ways of identifying the gifted, the research procedures about brain functions, and the information procedures about brain data were reviewed. Eleven scientifically gifted and 10 normal children from the 4th to the 6th grades were selected to analyze the characteristics of their brain waves with brain wave measuring instrument for PCs. The results showed that the scientifically gifted, while studying scientific and creative problems, used their right brain more than their left. When solving these problems, they utilized more of their theta and alpha brain waves than those normal children. In addition, theta brain waves of the scientifically gifted were rather active during these activities and this phenomenon was more distinctive in their right brain rather than their left. Thereby, this study implies that the characteristics of brain waves during the moments of solving certain problems can be used as a method to identify the scientifically gifted.

• Journal of Gifted/Talented Education
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• v.9 no.2
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• pp.73-101
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• 1999

The purpose of this study was to suggest an advanced system for educating scientifically gifted children in the Center for Science Talented Education at Kyungpook National University. Several suggestions based on analysis of current identifying-process and instructional materials for scientifically gifted children were provided for advancing the educational system of the center. First, this study suggested a three-step procedure to identify procedure emphasized students reasoning skills as one of important characteristics of the gifted child. Second, this study provided an instructional model for developing hypothesis testing skills in scientifically gifted children. The model was originally based on Lawson's scientific reasoning processes and learning cycle mode. Third, this study also suggested an effective administration system of the Center for Science Talented Education. Further, this study suggested effective ways on research works for advancing the center, educating instructors, the cyber center for remote education, and international co-works for developing the gifted children's potential abilities.

• Journal of Korean Elementary Science Education
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• v.25 no.spc5
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• pp.567-581
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• 2007

This study examined patterns of reasoning of both the scientifically-gifted and children of average ability as witnessed in their science problem solving skills. Science problem solving skills are one of the significant characteristics of scientifically gifted children, and by using methods such as individual interviews, inductive reasoning, abductive reasoning, and deductive reasoning, the characteristics of these children can be to be further explored and categorized. The study also compared the findings with those of average children. This study sought to determine efficient guidelines fur teaching the scientifically-gifted, to come up with basic materials for developing relevant programs, and to find suggestions for identifying such students. The results of the study are as follows: Firstly, the creative science problem solving skills of the scientifically-gifted were better than that of the average students. Secondly, all of the three reasoning patterns used revealed in creative science solving processes were different between the gifted and the average, especially in terms of abductive reasoning, which was proved to reveal the greatest distinction between the two groups.

• Journal of Gifted/Talented Education
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• v.20 no.2
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• pp.427-459
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• 2010

The personal introduction of 2009 academic year Korea Science Academy (KSA) freshman, 143 persons, recommendation that is filled with giftedness cases and observation recording through observing the students by guidance teacher and professor, and Observation recording paper about students that is made by parents, were analyzed in order to investigate behavior characteristics of the Scientifically Gifted by Computer Assisted Qualitative Data Analysis System (CAQDAS). We could divide behavior characteristics of the Scientifically Gifted to 5 main categories by study results. As well as this study may make up for foreign researches and existing researches dependent on quantitative research about behavior characteristics of the Scientifically Gifted, This can be used as a useful data for development of instrument for identifying the scientifically Gifted and teaching-studying program by supporting understand behavior characteristics of the Scientifically Gifted as a specific area of giftedness.

• Journal of The Korean Association For Science Education
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• v.28 no.2
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• pp.111-119
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• 2008

We objectively analysis of teacher recommendation on selection process for scientifically gifted program, by having conducted the test of scientific attitude, process skill, logical thinking, creative problem-solving ability and creativity of the students who were enrolled in science gifted-education programs, students who were recommended by science teachers as talented in science and students of ordinary classes. In result, both gifted program students and teacher-recommended students scored much higher than ordinary class students in all test fields, but there was no meaningful difference between the gifted-program students and teacher-recommended students. This result signifies that teacher recommendation is a valuable tool for selecting students for a science gifted-education program.

• Journal of Science Education
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• v.39 no.3
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• pp.307-320
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• 2015

This study aims to compare resilience and task commitment between the elementary gifted students in science and non-gifted students. The subjects in this study were 132 gifted students belonged to gifted education centers or gifted classes and 147 non-gifted students, all of whom were in the 6th grade. In order to examine resilience and task commitment, a 5-point Likert scale-style questionnaire survey was conducted to the subjects. With the aim of identifying the difference between resilience and task commitment among groups, data were analyzed by one-way ANOVA and $Scheff{\acute{e}}$ test. And in order to investigate the relationship between resilience and task commitment among groups, Pearson correlation analysis was carried out. The results of this study were as follows; First, resilience was found to have a significant difference between scientifically gifted students belonged to gifted education centers and non-gifted elementary students, and between students of gifted classes and ordinary elementary students, with no significant difference between scientifically gifted elementary students belonged to gifted education centers and students of gifted classes. Second, task commitment was found to have a significant difference between scientifically gifted elementary students belonged to gifted education centers and non-gifted students. Third, there were very high correlation between resilience and task commitment among the groups.