• Communications of Mathematical Education
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• v.21 no.1 s.29
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• pp.107-124
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• 2007

This study, at this point where a national attention is being focused on the special education for brilliant children after the enactment of the law regarding the promotion of the special education for brilliant children and the establishments of various policies on the education of excellence, investigated and analyzed the perceptions of students who are participating in the program for elementary school brilliant children on mathematics. First, the understanding of the area of the definition of brilliant students by the teachers with the institutions for the special education for brilliant children that use the program for elementary school brilliant children on mathematics should be increased. Second, the professionality of the teachers should be secured for an efficient operation of the program for elementary school brilliant children on mathematics. Third, the students who participated in the special education lot brilliant children tended to be self-initiative in participating in the program but the self-initiative aspect was insufficient in the lessons. Fourth, the students who are participating in the special education for brilliant children have positive opinions on the contents and methods of the lessons. Fifth, as for the materials for brilliant children's learning supplied to the program for elementary school brilliant children on mathematics, the brilliant students perceive them as the teaching materials for brilliant children. In this thesis, the program for special education for brilliant children was assessed and analyzed through the questionnaires to the teachers and students participating in the program. More abundant brilliant children programs should be developed so that the programs suitable the brilliant students can be provided to the students and the studies to improve the programs with regards to the effectiveness etc should be continually done from now on.

• Journal of Korean Elementary Science Education
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• v.43 no.1
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• pp.18-34
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• 2024

This study aimed to examine the effects of a science-learning program based on data visualization on the science inquiry and creative problem-solving abilities of elementary school science-gifted students. Accordingly, this research developed a data visualization science-learning program using Tableau, which had twelve sessions. The subjects encompassed 61 students in three gifted classes taught by the researcher. The scientific inquiry ability test and creative problem-solving ability test modified to suit the environment and situation were given to the subjects before and after the treatment. The results confirmed that science learning based on data visualization had no significant impact on basic science inquiry skills. Among the subdomains, significant results were obtained only in the reasoning subdomain. Moreover, integrative inquiry ability was significantly affected, unlike basic inquiry abilities. Among the five subdomains, significant differences were observed in three subdomains (data conversion, data interpretation, and variable control). However, concerning the generation of hypotheses and the control of variables, students exhibited confusion regarding the process of variable control and the exact concept of hypothesis development. This study also evaluated the effects of the program's application on creative problem-solving abilities and found a significant impact. Additionally, it was significantly different in all four subdomains. The results were interpreted to be owing to the students' mastery of Tableau's features, collaborative learning through discussion and debate, and the thematic impact of the data visualization program emphasizing procedural thinking. Finally, this study presented implications for science learning based on data visualization and the future direction of education.

• Journal of The Korean Association For Science Education
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• v.31 no.8
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• pp.1214-1228
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• 2011

As a case study on beginning teachers' teaching professionalism in science-gifted education, we analyzed their teaching professionalism based on pedagogical content knowledge. To do this, we selected 3 elementary and 3 secondary beginning teachers from science-gifted education institutes in the metropolitan area. After their science instructions for science-gifted students were observed, in-depth interviews were conducted. Analyses were conducted with taped videos, researcher's field notes, and transcripts for in-depth interviews. This study revealed that most of the teachers had relatively desirable belief about science-gifted education. However, they tended to have a little deficient practical knowledge about science-gifted students, the curriculum for science-gifted education, science contents, the instructional strategies for science-gifted education, and the assessment in science-gifted education. These results imply that many teachers are likely to have a little deficiency in teaching professionalism for science-gifted students in various aspects, and need to find the ways of improving their teaching professionalism.

• Journal of Gifted/Talented Education
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• v.25 no.1
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• pp.59-76
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• 2015

The study aimed to investigate elementary school gifted students' hypothesis-generating ability and characteristics of hypotheses and to analyze the correlation between hypothesis-generating ability and meta-cognition. Nineteen students enrolled in a science gifted education center affiliated with a university in 2013 were selected as research subjects. An instrument of open ended items about hypothesis generating was developed and administered to students, and their meta-cognition as well as their preferred science teaching method were examined. Hypotheses generated by students were classified into two categories: scientific and non-scientific hypotheses, and then a closer analysis was conducted on characteristics of non-scientific hypotheses. It was found that 47% (18 out of 38 hypotheses) was scientific ones showing that elementary school gifted students in science in this study presented low level of ability in generating hypothesis. It was also found that non-scientific hypotheses frequently showed characteristics of uncertain in causality or impossible to verify relationships. Furthermore, differences in hypothesis-generating ability and characteristics of hypotheses were appeared in conditions whether inquiry questions and variable identification process were given or not. Students showed high abilities in hypothesis generating and variable identifying when inquiry questions and variable identification process were given. Compared to previous research results, students in the study showed high level of meta-cognition and tendency of utilizing monitoring strategy more than planning and regulating. In ill-structured conditions that students themselves find inquiry questions and identify variables, a significant (p<.05) correlation appeared between hypothesis generating ability and meta-cognition and a high level of correlation between planning and regulating strategies. It was also found that differences existed in hypothesis-generating ability and preferred science teaching methods between students with high level and those with low level of meta-cognition; and students with low level of meta cognition showed difficulties in generating hypothesis and identifying variables.

• Journal of Science Education
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• v.37 no.2
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• pp.359-373
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• 2013

This study is aimed to find out the effect after the development and application of the STEAM teaching-learning program for science gifted elementary school students. The validity of the developed program was verified by three experts. The program consists of a total of eight classes and eight days were carried out. Recorded lessons, class observation journal, and recorded interview transcription data were measured and then analyzed the effect. 'Present situation' is a very important step was confirmed. The degree of understanding of a given situation affected to task commitment, the formation of scientific concepts, creative design and deliverable.

• Communications of Mathematical Education
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• v.37 no.2
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• pp.257-276
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• 2023

Mathematical modeling can be described as a series of processes in which real-world problem situations are understood, interpreted using mathematical methods, and solved based on mathematical models. The effectiveness of mathematics instruction using mathematical modeling has been demonstrated through prior research. This study aims to explore insights for mathematical modeling instruction by analyzing the metacognitive characteristics shown in the mathematical modeling cycle, according to the mathematical thinking styles of elementary math gifted students. To achieve this, a mathematical thinking style assessment was conducted with 39 elementary math gifted students from University-affiliated Science Gifted Education Center, and based on the assessment results, they were classified into visual, analytical, and mixed groups. The metacognition manifested during the process of mathematical modeling for each group was analyzed. The analysis results revealed that metacognitive elements varied depending on the phases of modeling cycle and their mathematical thinking styles. Based on these findings, didactical implications for mathematical modeling instruction were derived.

• Journal of the Korean earth science society
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• v.35 no.7
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• pp.572-584
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• 2014

The purpose of this study was to find out the effects of astronomical STEAM program using co-teaching on self-directed learning attitude. For this purpose, we developed an astronomical STEAM program and applied it to elementary science gifted students. Thirty six, $5^{th}$ and $6^{th}$ grade elementary science gifted students were participated in this study in total having 16 students in experimental group and 20 students in control group. The results were described as follows. First, astronomical STEAM program using co-teaching was effective in improving self-directed learning attitude. Second, the program was effective in improving participants' openness to learning opportunities and problem-solving. Third, students were satisfied with the co-teaching that provided ample feedbacks and detailed explanations, and teachers perceived that co-teaching was helpful to overcome a lack of professional knowledge, and to solve difficulties of evaluation and preparing teaching materials for STEAM classes. With findings, we discussed implications for co-teaching of STEAM lessons to improve students' self-directed learning attitude at the end of paper.

• Journal of Korean Elementary Science Education
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• v.41 no.3
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• pp.553-568
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• 2022

This study investigated the level of academic passion for elementary school teachers' science pedagogical content knowledge (PCK) and examined the factors that influence the passion. To this end, 161 elementary school teachers in Seoul were selected, and academic passion tests were then administered to evaluate their academic passion for science subject matter knowledge and science pedagogical knowledge. Individual in-depth interviews were also conducted with some of the participating teachers. The results revealed that 'importance' and 'harmonious passion' for learning science subject matter knowledge and science pedagogical knowledge were found at a high level. However, 'time/energy investment' and 'obsessive passion' for learning the knowledge were slightly higher or lower than normal. The 'like' for learning science subject matter knowledge was relatively high, but the 'like' for learning science pedagogical knowledge was slightly higher than normal. The differences in academic passion for science subject matter knowledge and science pedagogical knowledge were greater according to advanced major at undergraduate than teaching career. The teachers evenly selected some factors that influenced their academic passion for science subject matter knowledge and science pedagogical knowledge. These identified characteristics included 'individual interest', 'high school track', 'experience in advanced major at undergraduate', 'experience in science-related graduate school', 'experience teaching science in elementary school', 'experience teaching science at the gifted education institute', 'experience in charge of science subject teacher', 'experience in science-related teacher training', 'experience in developing science-related teaching and learning materials', 'experience in charge of science or science-gifted related work', and 'experience in a science-related teacher community'. However, a slight difference was noted in the selection ratio depending on advanced major at undergraduate. Based on these results, the practical implications for improving their academic passion for science PCK are suggested.

• Journal of The Korean Association of Information Education
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• v.15 no.3
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• pp.469-481
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• 2011

The purpose of this study was to find the recognition and opinions of gifted students, as well as their parents and teachers, on applying the artistic components to current educational programs for high ability students, gifted in mathematics and/or sciences. Questionnaires were distributed to 84 gifted students, 59 parents, and 23 teachers in elementary schools in Seoul Metropolitan area. Findings of this study include: (a) More than 1/4 of gifted students in mathematics or sciences reported that they are talented in both math/science and arts, (b) most of students, parents, and teachers believe that arts education is useful for cultivating academic talents of gifted students, (c) gifted students and their parents prefer 'Science and Arts School for the Gifted' to 'Science School for the Gifted', if both options are available.

• (The) Korean Journal of Educational Psychology
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• v.23 no.3
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• pp.543-560
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• 2009

The purpose of this study was to identify the proper identification method of the gifted students in math and science. The subjects were 6,237 students from 3rd to 7th graders. The subjects took nation-wide tests which were made for identifying the gifted students. The tests were composed of creativity, thinking skill, and academic achievement in math and science. The results of this study were as follows; First, creativity and thinking skill were positively correlated with the academic achievements. Specially, the academic achievement of science was positively correlated with the all of the sub-factors of creativity and thinking skill variables. Second, the influential power of each variable differed depending on the identification methods. Also, group 1, which was considered all variables such as, creativity, thinking skill, and academic achievement, was the most proper way to identifying the top 1% students from the subjects. These results implies the variables of creativity, thinking skill, and academic achievement have to consider identifying the gifted students in math and science.