• Journal of the Korean School Mathematics Society
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• v.14 no.1
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• pp.101-122
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• 2011

In this paper, we investigated teachers' awareness for the gifted education using technology. We chose teachers who were taking a course(60 hours) in the gifted education at Educational Training Institute in Chonnam National University, and analyzed their awareness for gifted education using technology. We found teachers' awareness as followings. First, teachers think that their ability using technology is contained ability developing and performing program for the gifted education. Second, using technology in the gifted education have an effect on ability of inventively solving problem and extension of thinking power of the gifted. Third, the gifted education using technology is helpful to developing abilities of the gifted, which are intuitional discernment, organizing information, space perception and visualization. Also, that is helpful to developing fluency, flexibility and uniqueness of the gifted in terms of sub-factors of creativity (fluency, flexibility, uniqueness, sophistication).

• Journal of Gifted/Talented Education
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• v.25 no.5
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• pp.731-747
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• 2015

The purpose of this RSP program is to enhance the invention gifted students' creative thinking and self-efficacy in studying. This program has 20 subcategories and interesting activities attracting students' attentions which are based on TRIZ's 40 principles of invention. 3-Steps to learning, which are - experiencing, recognizing, and inventing are arranged as teaching methods of RSP program. In the first step, experiencing, students are motivated and get a glimpse of the principles of invention while experiencing innovative products. In the next step, recognizing, students grasp the related scientific principles from the products. In the last step, inventing, students are given keys to solutions for problematic situations and then they create new ideas after repetitive encounters with several products made by similar principles. RSP program is different from other programs in that it has this 'inventing' step, where students can create new ideas based on related basic knowledge. In conclusion, RSP program is systematically well organized with 4 steps(purpose, contents, teaching method and evaluation) and is shown to enhance invention gifted students' creativity and self efficacy in studying. Therefore, the RSP program is shown to be a reliable and useful program, and may be used in the classes for positive results.

• Proceedings of the Korea Information Processing Society Conference
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• 2008.11a
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• pp.1162-1165
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• 2008

이 논문은 정보영재 교육 중에서 프로그래밍을 위한 사고력 신장에 적합한 교육 프로그램 모형을 개발하고 이의 구현을 위하여 실제적인 예를 보여 교육 프로그램의 타당성과 유효성을 검증하였다. 이 논문은 트리와 트리 탐색을 이용한 사고력 신장 교육 프로그램으로 4단계로 구성되는 교육 프로그램을 제안하였으며, 구성되는 트리의 유형과 탐색 방법에 따라 세 가지 모형으로 세분화된다. 이 모델을 통하여 학생들은 문제를 트리로 표현하는 방법을 학습하게 되며, 트리로 구성된 문제를 해결하기 위하여 각각의 트리 모형에 따른 적절한 트리 탐색 방법을 통하여 문제를 해결하는 방법을 배우게 된다. 이 교육 프로그램 모형을 실제 교육 현장에서 적용하여 각 모형별로 그 결과를 비교 분석한다.

• Journal of The Korean Association For Science Education
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• v.31 no.4
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• pp.491-504
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• 2011

We investigated science-gifted students' conceptions on science learning. The inventory instruments used for our study were a questionnaire on the conceptions of learning science (COLS) and a questionnaire on the approaches to learning science (ALS). Our analysis of the questionnaires showed that there are differences in the conceptions of science learning between the science-gifted and ordinary students. Science-gifted students perceive science learning as storing up of scientific knowledge, expansion of knowledge structure and achievement of a new view. There are no differences in the conceptions of science learning between male and female science-gifted students. There are also no differences in the conceptions of science learning in terms of subject preference such as physics, chemistry, biology and earth science. Our analysis offer assistance to teaching material and teaching method for science courses.

• Journal of Gifted/Talented Education
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• v.22 no.3
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• pp.703-728
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• 2012

The purpose of this study was exploring instructive methods to make each gifted child's ability develop as more by selecting the dynamic method instead of existing static method in teaching and evaluating science-gifted students in elementary school and by analyzing conceptual change of electric circuit. In this research, 11 science-gifted students in primary school were chosen, and Dynamic Science Assessment(DSA) intended to comprehension of scientific electric circuit concept was performed as focusing on scaffolding aspects in order to find the transition process. And then, the features on transition process of students' concept were analyzed in quality. The results of the study were checked that the features of useful scaffolding input with respect to comprehending concepts of science gifted-students by using DSA. The less familiar to approach the subjects, the more presented numbers of scaffolding showed. As coming toward transition and same questions, scaffoldings (interactions) were declined because their level of transition was higher than before. Various ways were used in helping the students comprehend the concept on the method of connecting electric circuit and the emitting amount of current, which acted to adapt to daily life.

• Proceedings of the KSPS conference
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• 1997.07a
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• pp.45-60
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• 1997

의사소통식 영어교수법은 Widdowson (1978)이래, 과거 20여 년간의 여러 외국어 교수 방법들을 (침묵식 교수법, Gattegno; 자연적 교수법, Terrell & Krashen; 전신반웅 교수법, Asher; 집단언어 학습법, Curran; 암시적 교수법, Lozanov) 거치면 서, 이들 중에서 의사소통을 중심으로 한 여러 가지 방법을 총괄하여, 명실공히 외국어 교육 방법의 중심으로 그 자리를 갈수록 확고히 잡아가고 있다. 의사소통식 교수법은 우선 언어란 의사소통을 위한 수단이며, 의사소통은 사회 속에서 일어나는 사회 언어적 행위로 본다. 따라서, 외국어 교육의 목적을 무엇보다도 의사소통 기능의 숙달에 두는 것이다. 일반적인 의사소통 상황을 보면 발화내용의 문법적 정확성은 그 상황에 대한 내용의 적절성 여부에 비하면, 부수적인 것이다. 예를 들면, 사과를 하는 의사소통기능을 공부하면서, 사과하는 표현으로 Sorry라는 말을 썼다고 하자. 이때, 영어는 주어 생략 언어가 아니기 때문에, Sorry 대신에 문법적으로 완전한 문장인 I'm sorry 로 표현해야 한다는 문법적인 문제보다는 사과하는 표현이 그 상황에서 적절하게 쓰인 것인지를 묻는 것에 초점을 맞춘 것이 의사소통식 교수 방법이다. 현재, 초등학교 16 종 영어 교과서도 의사소통 기농들을 적절한 상황에 맞춰서 의사소통식 교수 방법의 정신을 비교적 잘 반영하고 있다. 그러나, 발음에서만큼은 아직도 의사소통식 교수방법을 무시하고, 정확한 발음의 명시적인 설명이나, 예시에 그치는 경향이 뚜렷하다. 이러한 경향은 교육부에서 고시한 제6차 교육과정과 이에 따른 해설서에서 되풀이되고 있다. 발음지도에 많은 관심을 기울여 많은 양의 지면을 할애하고 있음에도 불구하고, 전후에 흐르는 의사 소통식 영어교육의 맥을 완전히 끊고, 단지 정확한 발음의 해부학적 예시와 기술에 그 치고 있다 (임영재 외 1995). 이러한 발음기관의 단면도를 이용한 해부학적 발음의 예시는 특정 자음의 정확한 혀의 위치를 알려 줄 수는 있지만, 발음훈련을 대신하지는 못한다. 예를 들어, 자전거를 타고자 하는 사람이 자전거의 페달을 밟았을 때, 그 동력전달 과정을 자세히 소개한 책자를 읽었다고 해서, 자전거를 탈 수 있는 것은 아니다. 역시, 자전거를 타고자 하면, 실제로 타고 넘어지면서 배우게 되는 것이다. 그리고, 발음훈련의 경우 교재의 내용이나 의사소통 기능은 의사소통식으로 가르치면서도 발음만큼은 아직도 원어민의 입모양을 활용한 듣고 따라하기 식의 전통적인 방법의 발음훈련을 계속하고 있다. 이러한 전통적 발음훈련 방법은 구체적으로 다음 장에서 제시되겠지만, 초등학교에서 듣고 따라하기나 듣고 골라내기와 같은 방법으로 발음훈련을 하면, 많은 학생들이 쉽게 지루해 하고, 아마 영어시간 중에서 가장 싫어하는 시간이 발음연습 시간이 될 가능성이 많이 있다. 현재 의사소통식 교수 방법을 모태로 한 교과서에서도 의사소통식 발음지도법을 쓰지 않았다는 것은 새로이 시작하는 초등학교 영어교육에서 아쉬운 점이라 아니할 수 없다. 초등학교 학생들에 대한 발음 지도의 핵심은 그들의 지적, 정서적, 신체적 특징을 잘 고려해야 한다. 초등학교 학생은 지적, 정서적, 신체적으로 성장기에 있어서, 호기심이 많고, 모방성이 강하며, 감수성이 예민하여 마음에 상처를 받기도 쉽다. 그리고, 무엇보다도, 끊임없이 신체적으로 움직이고 싶어한다. 이러한 학생들의 특정 을 반영하여 발음을 지도하는 길은 역시 초등학교 교과서의 다른 영역들처럼, 학생들은 움직이는 활동을 하면서 재미를 느끼고, 교사는 이들 활동을 통해서 교수목표를 성취하는 쪽으로 맞추어야 한다. 본 논문에서는 먼저 발음지도가 필요한 이유와 요인을 살펴본다. 그리고, 전통적인 발음지도 방법을 일별해 보고, 의사소통식 발음지도법을 제시하는 순으로 논의를 전개하기로 한다.

• School Mathematics
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• v.12 no.3
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• pp.301-322
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• 2010

In this study, researchers developed the criteria evaluating mathematically gifted students' creative products, which contain such evaluation headings as cognitive abilities(; creativity, analytic thinking, expert skill and knowledge), performing ability of the Mathematically Gifted-Creative Problem Solving process. And then a case study is carried out to apply the criteria to an actual condition of mathematically gifted education. This case study shows that how teachers can apply those of model and criteria in actual condition of the mathematically gifted education. Through the criteria above mentioned, the characteristics of creative productivity can be grasped clearly and evaluated in detail.

• Journal of The Korean Association For Science Education
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• v.37 no.5
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• pp.835-846
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• 2017

The purpose of this study is to investigate the perceptions of scientifically gifted middle school students about their engineering design process according to gender and talent division. The instrument in surveying their perceptions about the engineering design process consists of 24 items (Likert 5 point type) five domains: problem definition, information collection and utilization, idea generation, inquiry performance, and teamwork (communication, cooperation, leadership). A total of 102 scientifically gifted students participated in the survey, according to gender (69 males and 33 females) and talent divisions (physics, biological sciences, software, mathematics, space-geological sciences, and chemistry). They had a high level of awareness of their engineering design ability. It is necessary to develop a customized gifted-education program so that their talent in their field of interest can be fully displayed according to the gender and talent division. In addition, the teaching and learning methods and strategies of the engineering design program for the scientifically gifted middle school students should be established to fully reflect the practical needs of the talented.

• Journal of Gifted/Talented Education
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• v.25 no.6
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• pp.799-815
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• 2015

The gifted Education has been grown up a lot although it has several problems in terms of the quality of the gifted education programs after legislated the Promotion of Education for the Gifted and Talented Law during the last ten-year period. So the purpose of this study was to investigate teachers' perceptions of the national standards gifted education program and the problems in managing of the gifted education program. The conclusions according to the analysis are as follows. First, it has analyzed that gifted teachers recognize the lack of teaching and learning materials, regional level difference of the gifted children, Redundancy of program in the grade and school levels in managing of the gifted education as the problems. Second, it was found that perception of most gifted teachers about necessity of the National Standards Gifted Education Program development was very positive. Also, it has shown that gifted teachers expect the education with the overlapped contents and teaching methods would be managed differently, the difficulty of the topic selection could be resolved, and the quality of the gifted education by the programs development of various aspects would be increased. Especially, gifted teachers expect that the problem from the lack of gifted education continuity of school levels could be resolved by development of the National Standards Gifted Education Program. Therefore, for the improving quality of gifted education with resolving the problem from the Contents Redundancy and the lack of gifted education continuity of school levels, the national standards gifted education program should be studied developed as soon as possible.

• Journal of the Korean earth science society
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• v.40 no.6
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• pp.639-653
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• 2019

The purpose of this study is to investigate the science gifted students' level of interpreting the oceanic graph and of understanding the oceanic physical concept through analyzing the Temperature-Salinity (T-S) diagram and inferring the SOFAR (SOund Fixing And Ranging) channel. A total of 106 gifted students in the 3rd year of a science gifted high school, using T-S diagrams published in one of the journals of Oceanology, developed descriptive questions asking the depth of the SOFAR channel to conduct the quantitative and qualitative analysis of graph interpretation ability. As a result, there was a big difference in the level of graphs interpretation and concepts understanding for each science gifted students such as interpreting, modeling, and converting, and exposed their alternative concepts about water temperature, salinity, and density. The results of this study will be used to understand the levels of science gifted students' graph interpretation in oceanology, and to provide the basic data for improving the teaching and learning methods of oceanology and also provide basic data for teaching material development related to graph analysis.