The Center for Science Gifted Education (CSGE) of Chongju National University of Education was established in 1998 with the financial support of the Korea. Science & Engineering Foundation (KOSEF). In fact, we had prepared mathematics and science gifted education program beginning in 1997. It was possible due to the commitment of faculty members with an interest in gifted education. Now we have 5 classes in Mathematics, two of which are fundamental, one of which is a strengthened second-grade class gifted elementary school students, and one a fundamental class, and one a strengthened class for gifted middle school students in Chungbuk province. Each class consists of 16 students selected by a rigorous examination and filtering process. Also we have a mentoring system for particularly gifted students in mathematics. We have a number of programs for Super-Saturday, Summer School, Winter School, and Mathematics and Science Gifted Camp. Each program is suitable for 90 or 180 minutes of class time. The types of tasks developed can be divided into experimental, group discussion, open-ended problem solving, and exposition and problem solving tasks. Levels of the tasks developed for talented elementary students in mathematics can be further divided into grade 5 and under, grade 6, and grade 7 and over. Types of the tasks developed can be divided into experimental, group discussion, open-ended problem solving, and exposition and problem solving task. Also levels of the tasks developed for talented elementary students in mathematics can be divided into the level of lower than grade 5, level of grade 6, and level of more than grade 7. Three tasks developed and practiced are reported in this article.
The purpose of this study is to analyze the mathematical creativity and computational thinking of mathematically gifted elementary students through a convergence class using programming and to identify what it means to provide the convergence class using Python for the mathematical creativity and computational thinking of mathematically gifted elementary students. To this end, the content of the nine sessions of the Python-applied convergence programs were developed, exploratory and heuristic case study was conducted to observe and analyze the mathematical creativity and computational thinking of mathematically gifted elementary students. The subject of this study was a single group of sixteen students from the mathematics and science gifted class, and the content of the nine sessions of the Python convergence class was recorded on their tablets. Additional data was collected through audio recording, observation. In fact, in order to solve a given problem creatively, students not only naturally organized and formalized existing mathematical concepts, mathematical symbols, and programming instructions, but also showed divergent thinking to solve problems flexibly from various perspectives. In addition, students experienced abstraction, iterative thinking, and critical thinking through activities to remove unnecessary elements, extract key elements, analyze mathematical concepts, and decompose problems into small components, and math gifted students showed a sense of achievement and challenge.
Journal of the Korean Society of Earth Science Education
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v.3
no.3
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pp.175-183
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2010
The purpose of this study was to examine about effect for class of disadvantaged gifted student. For this, twenty-one item-questionnaires were giver to fifty three students at third graders in four elementary gifted schools located in Ulsan. The result of this study were as follows: First, the elementary school cognitive aspects of disadvantaged gifted class from the result of the effectiveness, 3rd grade students surveyed were all positive. Most of the students about help in learning, record enhancement, presentation skills, resources utilization, problem solving, study skills, creativity and confidence in learning in 77.3% of students answered that they had a positive influence Second, the elementary school affective aspects of disadvantaged gifted calss from the result of the effectiveness, 3rd students surveyed were all positive. Most of students about study habits, attitude, interest in studying, studying aspects related to the confidence and positive in 67.3% of students answered that they were affected. Third, the elementary school social and cultural aspects of disadvantaged gifted class from the result of the effective, 3rd students surveyed were all positive. Most of the students about teachers, students, parents, and efficient use of time for study 70.9% of students answered that they had a positive influence. Fourth, the elementary school private aspects of disadvantaged gifted class from the result of the effective, 3rd grade students surveyed were all positive. Most of the students about reliance on private tutoring classes, interest, record enhancement in 65.1% of students answered that they had a positive influence.
The purpose of this study was to investigate the effects of science based enrichment STEAM gifted program on the creative thinking activities and emotional intelligence of elementary science gifted students. The study subjects were two science gifted classes of the 5th grade of local Office of Education in B Metropolitan City. One class including 20 students was experimental group and the other including 20 students was comparison group. For the purpose of study, the lesson unit 'The world of light through science' was practised, the science based enrichment STEAM gifted program was applied to experimental group, whereas comparison group was taught traditional gifted lesson. The results of this study were as follows. First, science based enrichment STEAM gifted program influenced significantly the improvement of the creative thinking activities of elementary science gifted students. Second, science based enrichment STEAM gifted program was showed to enhance the emotional intelligence of elementary science gifted students significantly.
The purpose of this research is to find out the change in graduate students' perceptions before and after they take a class on qualitative research. The class on qualitative research was held by the researcher in the winter semester of 2009. The subjects are nine graduate students (two male and eight female) and all elementary school teachers. An open-ended questionnaire with 5 items was used. The responses were interpreted, analyzed and categorized into several main conceptions. The results are as follow: First, some students perceived qualitative research as the counterpart for quantitative research, some perceived that qualitative research supplements quantitative research, while the rest of them had no concept of either before they took the class. Second, they all agreed that qualitative research is necessary in gifted education after they took the class. In order to better understand what is happening in classrooms, in terms of gifted education, a well organized curriculum for gifted education should be developed and conducted in graduate schools.
The purpose of this study was to develop science and art integrated program to improve the creativity of scientifically gifted elementary school students. This study was to develop science and art integrated program to enhance the creativity of these subjects. This program was consisted of 30 lessons covering 10 topics. It was developed of five stages including the observation stage reflecting the characteristics of the right hemisphere relevant to creativity, the interest and curiosity stage, the experiment design and performing stage, the internalization stage, and the stage of expressing arts. This program was applied to 20 senior gifted students in Y Elementary School in Gyeonggi province. Torrance Tests of Creative Thinking(TTCT) was used in order to investigate and measure the effectiveness of the program before and after its use in class. The results of this study are as follows: First, this program showed results of significant improvement of creativity of scientifically gifted elementary school students after its use in class(p<.05). Second, it was significantly effective in increasing their creativity, especially in the subdomains such as originality, abstractness of title, and territory of resistance on hasty conclusions after its use in class(p<.05). Third, it was significantly effective to increase the Creativity Index that represents creative potential(p<.01). In particular, emotional expression, internalized visualization, unique visualization, and richness of the imagery emerged. This study implies that the science and art integrated program was closely related to the right hemisphere of the features enabling the subjects to create new ideas, new things, and new reactions. In addition, this program is expected to contribute to activate the brain areas of creativity for gifted students in the science field.
The purpose of this study was to analyze successful intelligence and learning strategies for the scientific gifted and the general students in elementary school. For this purpose, we conducted a survey targeting 327(including 159 gifted students) 5th - 6th grader elementary students in Incheon Metropolitan City. We were utilized to evaluate the students' successful intelligence(Song, 2002) and learning strategies(Kim, 2005). The results of this study were as follows. First, successful intelligence and learning strategies of the scientific gifted students in elementary school were higher than the regular class students, it was a significant difference statistically(p < .001). Second, when compared according to grade level, the scientific gifted students class higher than the general class students, it was a significant difference statistically(p < .001). Third, when compared according to gender, the scientific gifted students were higher than the general class in both men and women, it was a significant difference statistically(p < .001)
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.
This study analyzed the relationship between self-directedness of science-gifted elementary students and their expression of scientific creativity in science-gifted class. A science-gifted program on the topic of Hydraulic Machine was implemented to 34 fifth-graders in the Science-Gifted Education Center of an education office in Seoul, Korea for four weeks. The self-directedness of the gifted students was divided into three types of 'General, Scientific, and Topic-Related Self-Directedness'. The products of the students' activities were assessed by using a scientific creativity assessment formula. Qualitative research, such as analysis of observations and interviews, was also conducted in order to identify characteristics that were not apparently revealed by quantitative data. The main results of this study are as follows: First, science-gifted elementary students' general self-directedness and their scientific creativity were significantly correlated (r=.373). Second, the students' scientific self-directedness and scientific creativity did not have a significant correlation (r=.294). Third, there was a positive correlation between the students' topic-related self-directedness and their expression of scientific creativity. Their self-rated scores (r=.420) for the topic-related self-directedness and the number of activity types associated with the topic had a positive correlation (r=.350). Fourth, the students were categorized into four groups according to the levels of their self-directedness and scientific creativity, and the result showed that Type HH (high self-directedness and high scientific creativity) was the most common type (15 students, 38.5%), followed by Type LL (low self-directedness and low scientific creativity) (11 students, 28.2%). Eight (20.5%) and five students (12.8 %) belonged to Type LH (low self-directedness and high scientific creativity) and Type HL (high self-directedness and low scientific creativity) respectively. Fifth, the classroom observation of the students in groups revealed that groups with more number of Type HH demonstrated better cooperation and performance. Sixth, the analysis results of the observation were almost matched to the results of the self-directedness and scientific creativity tests. The students with higher self-directedness demonstrated active class participation and good cooperative skills. The students with higher scientific creativity had a tendency to generate creative ideas more frequently in given situations. Seventh, dynamic activities were perceived as enjoyable and exciting by 76.9% of the students, but static activities that require creativity were regarded as interesting only by 23.1% of the students. Among the students who were satisfied with both the creative and static activities, Type HH accounted for the largest proportion (55.6%). In conclusion, factors such as students' interests, initiatives, and attitudes displayed through voluntary participations originated from their own daily life can predict the degree of scientific creativity associated with the topic. Also, when students were categorized into four types according to the level of self-directedness and scientific creativity, there was a tendency of active behavior in class, cooperative skill, and activity satisfaction. This suggested that we should consider self-directedness and scientific creativity in selecting the gifted, grouping them in class, and designing and executing programs for science-gifted elementary students.
Journal of The Korean Association For Science Education
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v.34
no.1
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pp.10-20
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2014
This study compares the perceptions of elementary gifted child and science teacher in a science class for the gifted. In order to explore the research problem, students and teachers answered a written semi-structured questionnaire and participated in interviews regarding the gifted science class. The data was collected and analyzed. Science teachers recognized the characteristics of a good science class, especially in terms of educational content and teaching methodology. First, they suggested promoting inquiry skills, presenting a challenging task in atypical topic selection, student-centered curriculum, and controlling the pace of learning to recognize individual differences. Second, in terms of the science class skills and attitudes category, teachers recommended raising mutual satisfaction through vigorous interaction within a permissible atmosphere. Finally, science teachers need to strive for continued professional growth. Gifted children, meanwhile, want to investigate a wide range of topics without time constraints. Additionally, they may have to explore challenging topics further. They prefer to act like scientists in that they enjoy group activities, communication and cooperation. In particular, they want to be evaluated by others in a totally embedded assessment. Gifted children also expect teachers to understand the life circumstances and needs of the students. In addition, they asked for teachers to respect individual experiments and to show them how to safely use new equipment or research methods. As a result, gifted children and science teachers have to recognize the differences of opinion concerning a good science class for the gifted. This study can help formulate strategies to establish quality management of materials in gifted science classes.
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