• Communications of Mathematical Education
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• v.16
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• pp.367-386
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• 2003

현재 우리 나라에서는 과학영재교육원을 설립하여 초 ${\cdot}$ 중학생을 대상으로 영재 교육 프로그램을 운영하고 있다. 하지만 실제 초등학생보다는 중학생에 초점을 두고 이루어지고 있으며 프로그램의 내용 역시 일반화되어 있지 못하다. 특히 영재교육진흥법과 시행령이 통과되어 올해부터 영재 학교 ${\cdot}$ 학급이 운영되고 있는 현시점에서 영재들을 교육시킬 교수 ${\cdot}$ 학습자료의 개발이 절실히 요구되고 있다. 따라서 문제해결력중심, 수학실험중심, 수학탐구중심이면서 수학분야에 흥미가 있고 재능이 있는 아동들에게 수학적인 힘을 강화하고 자발적인 학습 태도를 배양시킬 수 있는 초등학교 중학년 영재아들을 위한 학습자료를 개발하는데 이 연구의 목적이 있다.

• Journal of the Korean Society of Earth Science Education
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• v.12 no.1
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• pp.64-81
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• 2019

The purpose of this study is to analyze elementary science gifted students' characteristics of the thinking in the problem solving process through a MEA(Model Eliciting Activity)activity. The subjects of this study are 40 elementary science gifted students who passed the first screen for the admission to the science gifted education institute in P university in 2018. The MEA activity was 'Coffee cup challenge', which is to find the best way to place cup side and bottom to save paper in a given material. Three drawings from each student and explanations of each drawing through out the design process were collected as the main data source. The data were analyzed by statistically (correlation coefficient) and qualitatively to find the relationship between; 1) the intuitive thinking and visual representation and 2) analytical thinking ability and communication skills that reflect MEA activities. In conclusion, first, intuitive thinking plays an important role in the ability of visual representation through pictures and the whole problem solving process. Second, the analytical thinking and elaboration process which are reflected through reflection on the arrangement of the drawings have a great influence on the communication skills. Therefore, this study investigated that MEA activities are useful activities to stimulate both intuitive and analytical thinking in elementary science gifted students, and to develop communication ability, by organizing their own ideas and providing learning opportunities for various solutions.

• 대한지구과학교육학회:학술대회논문집
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• 2010.08a
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• pp.19-20
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• 2010

• Journal of Gifted/Talented Education
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• v.19 no.3
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• pp.647-667
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• 2009

This study intends to analyze open-ended inquiry activities of elementary science-gifted students in terms of how similar they are to authentic science inquiry and suggest desirable ways to make more effective programs for the gifted. For this study, we selected a small group with five elementary science-gifted students who had participated in the open inquiry program of summer camp held in the Institute for Science Gifted Education and collected data through recording and video-taping their discussion and performance from planning to coordinating inquiry results. The data was analyzed in terms of epistemological features and cognitive process in authentic science inquiry. The results is as follows. In terms of epistemology, students' inquiry methods were theory laden and they constructed knowledge in collaborative groups. For example, the students often discussed about performing the thought experiment and scientific concept related to inquiry task or their opinion. And in terms of cognitive process, their designing inquiry was similar to authentic science inquiry especially selecting variables, planning procedures, controlling variables, planning measures.

• Journal of Gifted/Talented Education
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• v.22 no.4
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• pp.855-874
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• 2012

This research aimed to obtain basic data for elementary school students to form proper concepts by comparing the science gifted students and the ordinary students of elementary school with regard to the groundwater concept, formation process, existence forms, and movement. The research subjects were 65 fifth and sixth graders of the elementary school students and the spatial ability test was conducted on the subjects, and 4 science gifted students and 8 ordinary students chosen from the subjects were analyzed using half-structured interview data and ground water drawing drawn by the students. The conclusion derived in accordance with the research purpose is summarized as follows. It was found that there were no great differences in the answers to the question asking what groundwater is between the science gifted elementary school students with high spatial ability and the ordinary elementary school students with moderate spatial ability. The ordinary students with low spatial ability tended to regard groundwater as the concept of water and sewage. In the concept of the formation process of groundwater, the science gifted elementary school students with high spatial ability explained it by citing diverse surface water such as rainfall, river water, lake, and waterfall, and the ordinary elementary school students with moderate spatial ability all mentioned only rainfall and river water and could not explain diverse spatial factors. The ordinary elementary school students with low spatial ability mentioned rainfall and river water and perceived that groundwater was formed artificially. In the concept regarding the existence form of groundwater, the ordinary elementary school students with low spatial ability could not think of space perception that small pore space exists in earth or soil in the ground. The science gifted elementary school students with high spatial ability knew that groundwater exists in pore space with regarding groundwater movement, the ordinary elementary school students with low spatial ability thought that there was no groundwater movement and that it could be moved only by artificial facilities. There were differences in the perception of pore space and in the perception of existence and non-existence of groundwater movement accordingly, but for most of the elementary school students, the concept of groundwater was formed differently from the scientific concept. It is considered that most of the elementary school students formed erroneous concept about groundwater and could not connect ground water under the surface of the earth with the substances forming its surroundings with regard to the concept of groundwater.

• Journal of Gifted/Talented Education
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• v.26 no.1
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• pp.101-122
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• 2016

The purpose of this study is to explore a possibility finding gifted underachievers who have high spatial ability, but low verbal ability in elementary science field. In Korea, because teachers used to refer students' academic achievement only when they recommend gifted students, underachievers used to be excluded. The participants are 5th-grade students in elementary school. In this research, developed teaching materials were given to students to find underachievers. Results of spatial ability test, verbal ability test, science academic achievement, non-verbal test, and interviews about light propagation concept were obtained. By analyzing results of this study, we found that spatial ability is the most important factors to understand light propagation. And there are some features to understand light propagation according to spatial ability. Lastly, this study shows the possibility of non-verbal test to find gifted underachievers with high spatial ability and low verbal ability.

• Journal of Gifted/Talented Education
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• v.11 no.2
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• pp.39-57
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• 2001

In this study, gifted children's perceptions of scientists were investigated. The subjects were 91 elementary students who were registered in educational program for the gifted. This study was conducted using Draw-A-Scientist-Test (DAST) and questionnaires about the life of scientists. As the results, most scientists were depicted as well-featured and young people. There was a tendency that boys mainly described scientists as male, but girls as female. Many of the students perceived scientists as those who did significant works to try to help other people and pursue the novelty The general perceptions of the gifted on scientists were positive. Majority of students, however, perceived that scientists worked indoors with glassware or chemicals. Relatively, fewer students described books, other materials, and technologies including computer. Many of the students perceived scientists＇work as research or invention. Concerning working pattern, students mainly replied that scientists worked alone. In order to make students＇restricted perceptions enhance for opened and flexible manner, various educational methods need to be implemented.

• Journal of Gifted/Talented Education
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• v.9 no.2
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• pp.131-152
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• 1999

일반적으로 영재교육을 실시함에 있어서 가장 먼저 선행되어야 할 것은 영재아 판별기준을 정해 학생선발과정을 운영하는 것과 실제 가르칠 교육내용을 구체적으로 정의하여 교재를 개발하는 것이다. 특히, 최근에 각광받고 있는 정보과학 분야의 영재교육에 대한 연구는 이제 시작단계에 불과하여 서로 다른 이론적 근거와 주관적인 기준에 따라 전국의 과학연재교육센터들을 중심으로 다양한 논의가 활발하게 이루어지고 있다. 본 논문에서는 아주대학교 과학영재교육센터에서 초등학교 4학년부터 중학교 3학년까지의 학생들을 대상으로 운영되고 있는 정보과학 영재교육 프로그램을 자세히 소개함으로써, 앞으로 정보과학 분야의 영재교육을 위한 구체적인 영재판별기준과 학생선발절차는 물론 체계적인 교육과정 및 교과목의 개발을 위한 하나의 실례로써 소개하고자 한다.

• Journal of the Korean Society of Earth Science Education
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• v.14 no.2
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• pp.136-145
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• 2021

The Gifted Education Program is re-constructured into core competency-based program in line with fourth industrial revolution, where talented people with comprehensive ability are required. Therefore, competency-based elementary science gifted education program which is provided from Gifted Education Database(GED) is developed in accordance with 2015 revised edition in science and 5 main core-abilities; scientific thinking ability, scientific investigation ability, scientific problem solving ability, scientific communication ability and scientific participation and lifelong learning ability. This research, which is provided from GED, is focused on earth science area among competency-based elementary science gifted education program and analyse quantitatively and qualitatively how science and core-ability is appeared in 3 programs developed in science area. This research can be another guideline when someone would like to use competency-based earth science gifted education program in gifted education. Also, the purpose of this research is to help suggesting a right direction for competency-based earth science gifted education program. The conclusion based on research problem is as follow; Firstly, in competency-based earth science gifted education program, influence rates of scientific communication ability and scientific thinking ability are highest, where influence rates of scientific investigation ability, scientific problem solving ability and scientific participation and lifelong learning ability are relatively low. Secondly, in competency-based earth science gifted education program, single activity may includes several core-abilities. Following research is quite meaningful in aspect of giving out the information to choose topic in core-ability when using competency-based earth science gifted education program in gifted education. Also by supplementing lowly-influenced ability in competency-based earth science gifted education program, it is expected for gifted students to build scientific core-ability.

• Journal of Gifted/Talented Education
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• v.19 no.3
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• pp.669-695
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• 2009

In the 21st century, there will be a robot revolution. Only several years ago, industrial robots were the mainstream in the robot market; however, diverse type of robots are currently entering into our daily lives for various purposes, and the robot that thinks and behaves very similarly to human will appear in the near future. However, there is a critical view about the robot period. This means that the robot revolution will change even the framework of our entire society and human life style, and it is necessary to have robot education. It is necessary to start robot education in the elementary school curriculum with a view to enhancing interest in basic science and scientific technology and cultivating creative talents who may adapt themselves to a robotic society. However, there is no systematic robot curriculum owing to insufficient perception of the need of robot education and the educational utilization of robots. Under these circumstances, robot education is largely dependent on education for students with special talents and aptitudes run by private organizations. This paper conducted the following research in order to develop a robot curriculum in education for the gifted elementary students of computer science. First, the paper identified problems by analyzing the robot curriculum from a micro perspective after selecting three organizations that are relatively well perceived out of private organizations that operate robot education for the gifted elementary students of computer science. Second, the paper developed a robot curriculum in education for the gifted elementary students of computer science based on the framework of a robot curriculum run by private sector. Third, the validity of the robot curriculum developed in this paper was verified by a professional group comprising mainly persons in charge of robot curriculum development at private sector and lecturers for robot education for the gifted elementary students of computer science.