• Journal of Gifted/Talented Education
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• v.21 no.3
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• pp.719-739
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• 2011

The purpose of this study was to find the effect of the astronomical learning program using SGIM on metacognition and science process skills in the elementary scientific gifted students. For this purpose, this research developed the astronomical learning program using SGIM. This program was totally consisted 9 lessen. there was 6 part in this program. It contained select the subject and small grouping (step 1-2), planing inquiry (step 3), doing inquiry (step 4-6), making a report (step 7), announcing (step 8), evaluation (step 9). To find the effect of the astronomical learning program using sgim on metacognition and science process skills in the elementary scientific gifted students. 20 participants was selected. These students were attended at a scientific gifted class (3rd grade) of an elementary school located in Ulsan. First, metacognition test and science process skills test was used to find the effect of the astronomical learning program using SGIM. And the results were analyzed by SPSSWIN 18.0. The results of this study were as follows. First, the astronomical learning program using SGIM was a positive effects on metacognition of the elementary scientific gifted students (t=3.371, p=.001). Second, the astronomical learning program using SGIM was a positive effects on science process skills of the elementary scientific gifted students (t=3.104, p=.021). According to this research, the astronomical learning program using SGIM was verified to improve metacognition and science process skills on the elementary scientific gifted students. It will be contribute on the curriculum construction of the gifted school or gifted class.

• Journal of the Korean earth science society
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• v.26 no.5
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• pp.387-394
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• 2005

We have analyzed the science-gifted educational program (year 2002) at the Seoul National University in terms of its educational objectives, scientific models, and cognitive processes in scientific inquiry in order to provide insights into developing and improving science-gifted educational program. We assumed the following items as important factors for teaching scientifically gifted students: higher-order thinking skills involving synthesis domain in the educational objectives, highly abstract nature and complexity in the scientific models, cognitive processes of planning experiments in the cognitive processes in scientific inquiry. According to the analyzed results, the program has the following characteristics: (1) the rates of both higher and lower-order thinking skill domain in the educational objectives are similarly high, but the rate of synthesis domain is relatively low; (2) in the case of the scientific models, the rate of the multiple concepts and/or processes model is relatively low, while the level of the abstractness is relatively on average (3) cognitive processes of authentic scientific inquiry is not thoroughly reflected in the scientific inquiry activities, and very few cognitive processes of planning experiments factor is reflected. Therefore, we conclude in the synthesis domain in the educational objectives, multiple concepts and/or processes model, and cognitive processes of planning experiments should be especially reflected more on the science-gifted educational program in order to serve the needs of scientifically gifted students.

• Journal of Korean Elementary Science Education
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• v.33 no.3
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• pp.536-548
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• 2014

The purpose of this study was to develop a science gifted education program as a strategy for modulating gifted children's overexcitabilities and to examine the effect of such program on task commitment and creative personality. The results of this study were as follows. First, science gifted education program which modulated gifted children's overexcitabilities showed significant effect on the improvement of task commitment. Looking at sub domains, significant results were obtained at self-regulation. Second, science gifted education program which modulated gifted children's overexcitabilities showed significant effect on the improvement of creative personality. Looking at sub domains, significant results were obtained at the self-conviction and humors. Third, students who experienced the classes showed affirmative responses that the new teaching method was interesting and helpful. Looking at the above results, science gifted education program which modulated gifted children's overexcitabilities can be considered as effective for improving task commitment and creative personality of elementary scientific gifted students.

• Journal of Fisheries and Marine Sciences Education
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• v.26 no.5
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• pp.1119-1128
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• 2014

This study was aimed at analyzing the correlation among each factor after finding out the difference between the gifted elementary students of science and general students with their parents' learning involvement, the children's intellectual curiosity and scientific creativity. The results of the study were as in the followings. Firstly, there was a significant difference in the intellectual curiosity between the gifted students and general students. Secondly, there was a significant difference in the parents' learning involvement perceived by the gifted students and general students. Thirdly, there was a significant difference in scientific curiosity of the gifted students and the general students. Forth, as the results of the correlation analysis among the talented child's father's learning involvement, the child's intellectual curiosity and scientific creativity, there was a positive correlation between the father's pursuit for appropriateness and the talented child's special curiosity, and another positive correlation between the father's encouragement for academic improvement and the child's flexibility and originality.

• Journal of Gifted/Talented Education
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• v.14 no.4
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• pp.113-123
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• 2004

The concern with scientific mode1s has been growing in science education, and schematic models are frequently used to teach science concepts in secondary schools. The aim of this study is to investigate how well the scientifically gifted students understand scientific concepts through activities of modifying scientific models which we developed. Thirty 8th-grade students participated in the study, 15 in a control group and 15 in an experimental group. For the students in the experimental group, teaching material with activities of modifying models, while for the students in the control group, the teaching material with traditional activities such as explanation, problem solving, and reading. The teaching contents in physics for both groups were linear momentum. We used multiple-choice test and essay-type test to evaluate students' achievements after lessons, and then compared their achievements of both groups. Through the research, we could find a clue that model-modifying activities are helpful for the gifted students to enhance their understanding of physics concepts, although the statistics does not show meaningful difference between experimental and control groups.

• Journal of Korean Elementary Science Education
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• v.39 no.4
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• pp.506-521
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• 2020

This study aims to develop a scientific creativity task which science-gifted elementary students can conduct on a field trip to a botanical garden, and to analyze the results from conducting the task. For this, 38 science-gifted fifth-graders from the Science-Gifted Education Center, located at the Office of Education, participated in a field trip to a botanical garden, as a part of their program. Prior to the program, researchers developed a scientific creativity task for outdoor education program, along with science education specialists and teachers. The tasks were to observe plants, and to create something new and useful, or, in other words, scientifically creative, based on the plants' characteristics. The students could submit at most three ideas. Also, they assessed their own ideas, and selected an idea that they thought was the most creative. The results were analyzed by using the scientific creativity formula. The main findings from this study are as follows. First, it was found that the scientific creativity formula had an upward bias in assessing originality. Second, the students tended to assess the usefulness of their own ideas more generously. Third, the correlation between self-assessment results and scores from the scientific creativity formula for originality was r=.43. Fourth, in formula-based assessments, the correlation between originality scores and usefulness scores was relatively high, at r=.56. Fifth, the correlation between a student's scientific creativity score and the number of his or her ideas was very low, at r=.23. Sixth, when the ideas chosen as the most creative by students were compared with the ideas that had the highest scores in formula-based assessments, it was shown that 8 out of 19 students (42.1%) did not choose the idea that appeared to be the most creative when graded by the formula. This study is concluded by discussing the lessons from the scientific creativity task analysis for primary science education and gifted education.

• Journal of Korean Elementary Science Education
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• v.34 no.3
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• pp.265-275
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• 2015

The purpose of this study was to develop forensic science program for the improvement of scientific creative problem-solving abilities in gifted elementary-school students. A program that consists of six sessions (18 hours) is developed in accordance with the CPS model, which has been already proven effective for the improvement of creative problem-solving abilities. This program was applied to sixth-grade 18 gifted students in an elementary school in Gyeonggi province. Examinations of scientific creative problem-solving abilities were performed before and after applying the program in order to determine its effect on gifted elementary students. A qualitative analysis of students' activity sheets, peer assessment and teacher's class journal was made in order to examine the process of improvement of students' scientific creative problem-solving abilities. The results of this study are as follows: First, forensic science program to enhance the scientific creative problem-solving abilities of gifted students was developed. Second, forensic science program is significantly effective in the improvement of scientific creative problem-solving abilities of gifted children of elementary school (p<.05). Third, in early stage of the class, a student, who showed the highest range of change in pre and post tests, revealed the trend of responding in a short answer type. In the late stage of the class, he revealed the capability of producing various creative ideas promptly. On the other hand, students belonging to the upper group of both pre and post test revealed the improvement of divergent thinking skills such as fluency, flexibility, and originality. Fourth, after class, the students responded that the forensic science program developed in this study intrigued the interests and curiosities, and helped them break away from fixed ideas.

• Journal of the Korean Society of Earth Science Education
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• v.4 no.1
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• pp.74-82
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• 2011

The purpose of this study is to examine the effect of the science gifted children's creativity and scientific attitude development by e-PBL based scientific writing program. This program is composed of 4 instructions (13 hours), and its learning contents are made up to guide reading the related science books and understanding the contents through mind map to find out a solution by themselves, also, making an independent problem into group issue and setting up the plan for solution through small group cooperative learning, finally, performing activities like writing, presentation, evaluation and discussion according to the plan for solution. To examine the effect of creativity and scientific attitude by the program, 40 students of elementary science gifted children group in the Busan national university of education were selected for an experimental group. The review result is that, Firstly, the program affected positively creativity improvement of elementary science gifted children, Secondly, the program affects positively scientific attitude improvement of them as well. In conclusion, the program affects positively their creativity and scientific attitude.

• Journal of Korean Elementary Science Education
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• v.35 no.4
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• pp.406-415
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• 2016

The purpose of this study was to compare self-regulation and sociality between elementary scientific gifted students and general students. The subjective students are composed of fifth and sixth grade elementary school students. A survey on self-regulation and sociality had been conducted to 106 general students, 38 gifted class students and 43 students in science educational institute for the gifted. The results of this study were as follows: First, the results of ANOVA test showed that the scientific gifted students were significantly better than general students on all subscales of self-regulation and sociality. Second, the results of correlation analysis indicated that self-regulation and sociality and their subscales were all highly positive relationship on students in science educational institute for the gifted, gifted class students and general students. Third, the results of multiple regression analysis showed that the motivational factor of self-regulation gave the greatest effect to the sociality of students in science educational institute for the gifted, whereas, the cognitive factor of self-regulation gave the greatest effect to the sociality of the general students and gifted class students.

• Journal of Korean Elementary Science Education
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• v.33 no.3
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• pp.439-452
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• 2014

The purpose of this study is to find out the effect of STEAM program on the scientific communication skills and the learning flow of elementary gifted students. The main findings of this study are as follows: First, STEAM program that mathematical, technical, engineering and art factors were combined based on basic concepts of science were developed. Seconds, the change in the scientific communication skills of experimental group applying STEAM program had statistically meaningful difference (p<.05). Third, the flow of experimental class improved, but it had no meaningful difference statistically (p>.05). But it is expected that continuing level adjusted STEAM program might have positive effect on improving the flow with the following three reasons: 1) The gifted students' flow level on learning before experiment was rather too high to expect short term effect. 2) It was hard for them to achieve flow experience because topic difficulties and students' capacities were not balanced. 3) topic commitments and autotelic behaviors of gifted students were observed during classes. Fourth, by the result of the student satisfaction questionnaire survey on this program, students actively participated in the STEAM program with interest and curiosity. As achieved self-directed problem solving, versatile communication activities and success experiences, their class satisfaction was high. Based on such results, it was expected that the gifted class applied of STEAM program could enhance scientific communication capacity of the elementary gifted students and would further positively influence flow of learning as well. In addition, it was considered to have integrated approach value to elementary gifted and talented education in the aspect that it could satisfy various educational demands of gifted students.