The purpose of this study was to investigate how teachers recognize the differentiation of gifted education in invention to gifted education in science. An online survey was conducted to more than 500 hundred school teachers to ask (1) if gifted education in invention is necessary as an independent area of gifted education, (2) if gifted education in invention should be differentiated in identification, education programs, councelling, facilities and so on to gifted education in science, and (3) what problems gifted education in invention are facing and how we can promote gifted education in invention. Findings by this study are like the following: 1. Almost all teachers, regardless of whether their duty is related to gifted education in invention or not, recognized the necessity of gifted education in invention as an independent area of gifted education, especially from gifted education in science. 2. Teachers recognized the differentiation of gifted education in invention in diverse aspects of gifted education, like identification, educational programming, and so on, especially to gifted education in science. 3. Teachers recognized the shortage of trained teachers as the most critical obstacles to gifted education in invention, and also thought training programs for teachers as the most important means that can promote gifted education in invention.
The purpose of this study is to find out the effects of convergence gifted education program for science-physical education on self-efficacy of the gifted students in elementary school. So, the program was carried out for the gifted students in the 5th grade of elementary school during the 8 hours on two subjects, we investigated the cause and effect through the pre-post test of self-efficacy and interview. The results were as follows. First, it was observed that it would have a meaningful effect to improve the self-efficacy of gifted students who performed gifted education program for science-physical education convergence. Especially, the results of 'confidence', 'difficulty preferences' was statistic meaningful differences. Second, convergence gifted education program for science-physical education enhanced confidence and challenge of consciousness of students. Especially, when products of gifted students are applied to real-world valued the higher confidence. Therefore, we found that in order to increase the gifted students' self-efficacy, gifted education program is configured by applying the products to the actual field.
This study investigated the characteristics of elementary science-gifted education teachers' reflection on their science teaching. To do this, the reflective journals of 33 elementary science-gifted education teachers were analyzed in terms of 'productive reflection'. The results revealed that most of reflective journals included the aspects of 'instructional strategies and instruction for science-gifted education (100.0%)' and 'science-gifted students (90.9%)'. 'Curriculum for science-gifted education (42.4%)' was also frequently included although fewer than two previous aspects. However, 'subject matter knowledge' and 'assessment in science-gifted education' were included less than 10%. The mean score of the inclusion scores was 2.48 on a scale of 5 points and was not significantly correlated with the teaching careers in science-gifted education. 18.2% of the journals showed no integrations, which were unproductive reflection. 66.7% of the journals integrated only two aspects and 24.2% of the journals integrated three aspects. Only 6.1% of the journals integrated four aspects and no journals integrated all five aspects. Especially, the integrations between 'science-gifted students (81.8%)' or 'instructional strategies and instruction for science-gifted education (81.8%)' and the other aspects were most frequent. The integrations between 'Curriculum for science-gifted education (30.3%)' and the other aspects were also frequently included. However, the integrations between 'subject matter knowledge (6.1%)' or 'assessment in science-gifted education (0.0%)' and the other aspects were hardly included. The mean score of the integration scores was 2.12 on a scale of 5 points and was not significantly correlated with the teaching careers in science-gifted education.
The purposes of this study are to investigate Korean science teachers' perception on the science gifted education in Korea, and to investigate if there are differences on their perception among the science teachers whose institutes are different. Their institutes are divided into three groups, which are the formal schools for the gifted in science such as Science High-School, gifted education centers attached to district education authority, and general secondary schools. For the study, 266 science teachers were sampled from the schools in Busan Metro-city, Ulsan Metro-city, and Kyoungnam Province, and then questionnaire developed by the authors were administered to them. The research results are as follows. Firstly, teachers who were going to participate in special education for the gifted in science answered affirmatively, and they thought it seemed worthwhile. On the other hand teachers who were not going to participate in it, answered negatively, mentioning shortage in specialty or extra work overload. Secondly, only the Korean Educational Development Institute was too much preferred by science teachers for teacher training institute for the gifted education in science. Therefore, it is needed to extend the teacher training institutes for the gifted education in science throughout the country. Thirdly, the perception of science teachers on the constitution of a class for the gifted in science is very different among the teachers of formal schools for the gifted in science and the teachers who teach science part time when it is needed in the district institutes for the gifted education. Finally, the perception on the aims of special education for the gifted in science is very different between the teachers who teach the gifted in science and the teachers who do not teach them.
Journal of The Korean Association of Information Education
/
v.9
no.1
/
pp.69-76
/
2005
The researcher conducts the following research to correctly identify the gifted children of science information. First, the researcher makes sufficient theoretic research on gifted children for the sake of definition and identification of the gifted children of information science, and reconstructed the identification principles, factors and procedures of the gifted children of information science on the basis of those of the gifted children of math and science the theories of a number of scholars and presented new methods of identifying new gifted children of information science. Second, the researcher set the identification procedures of the gifted children of information science and the relevant content and conducted the identification of gifted children through the observation and evaluation of sixth graders through three stages. Third, the researcher compares and analyzed the selected gifted children based on the identification procedures and ordinary groups of students excellent in math and science in terms of task achievement and looked into validity.
The purpose of this study is to investigate the education system for science 34gifted/talented students in Korea. There are fifteen science gifted/talented education centers established in major universities, sixteen science high schools and one research center for the gifted education in science located at KAIST. To examine the selection procedure and the curriculum of the education centers and science high schools, the annual reports of the fifteen education centers and the annual plans of sixteen science high schools are analyzed. About 200 gifted/talented students are employed in the field of science, mathematics and information science at each education center, Multidimentional education system is developed for efficient way of teaching for the gifted. The curriculum and teaching method for each education center is unique and different from the science high schools that follow nationally given form. This study shows new selection method and unique curriculum for the science gifted/talented students employed in the education centers. Also, current situation of science high schools are reported in this study. Finally we suggest the systematic way of developing the education system for the gifted in science in korea.
On the basis of Sternberg's theory of mental self-government, this examined the difference in thinking style between gifted science students and non-gifted students, and their earth science concepts by the different types of thinking styles. The subjects were consisted of 120 students from the Busan Science Academy and 122 students from two general high schools in Busan, Korea. All participants responded to the Thinking Styles Inventory which is a self-report test consisting of 65 items, and essay questions for examining the students' earth science concepts. The results are as follows. First, the gifted science students prefer legislative, judical, anarchic, global, and liberal styles, where non-gifted students prefer executive, oligarchic, and conservative styles. Second, Type I thinking style group prove to have more complex concepts in relation to the geological and astronomical areas than those of the Type II thinking style group in both of the gifted and non-gifted students. This indicates that Type I thinking style students use a deep learning approach where Type II thinking style students use a surface learning approach.
This study analyzes the interaction of the policy of human resource in science and technology and the policy of education for the gifted. In Korea, the goals of gifted education seem to have gravitated more toward serving the national perspective of creating a pool of high-quality scientists for economic development, rather than toward helping individuals achieve their educational aspirations and promote their talents. The science education policy for the gifted can be categorized into two: one primarily by the Ministry of Science (MOST) and another by the Ministry of Education (MOE). So far, the policy of science education for the gifted has been written by MOE. Such an imbalance has been created because the two ministries differed in their values and priorities. MOST has designed the science education policy in order to foster the gifted as high-quality human resources in science and technology that can help contribute to economic development. On the other hand, MOE has designed the policy for the gifted with educational equity in mind. Although the policy by MOST had have more influence in implementing overall policies of educating the gifted, the two ministries have interacted and formulated the educational system of gifted in Korea. This study sheds light on the process that MOST has legitimized their science education policy for the gifted by designing it in line with the national and social goals, and has formulated a basis on which the gifted can contribute to R&D for economic development.
This study compared the cognitive conflict on peer instruction concerning the level of difficulty in question, between middle school science gifted students and non-gifted students. For the study, 35 the 7th grade science-gifted students in the organization affiliated with Science Education Institute for the Gifted in Seoul and Gyeong-gi province, and 14 the 8th grade science-gifted students, and 71 the 8th grade students. They performed peer instruction on propagation of straight light and composition of light and then, discussed three concept problems. After discussing the students took paper pencil test about changing levels of cognitive conflict. Regardless of the level of difficulty in question, the science-gifted students showed meaningful decreased figures on cognitive re-evaluation factors after peer-discussion. They trusted their peers, so during discussion, they explained their concepts. Furthermore discussion process enabled them to do reflective thinking. consequently, discord of students dropped, and total figures of cognitive conflict also declined. Science-gifted students have a tendency to worry lower than general students, though they felt anxiety as difficulty of the problems after peer-discussion. Through peer-discussion, science-gifted students presented statically decreased anxiety factors. By means of analyzed results of changing cognitive conflict of science-gifted students, developing and adapting strategies of cognitive conflict considering learner characteristics of science-gifted students is needed.
From the perspective of science gifted education, the successful intelligence theory is a means to understand how the gifted education curriculum reflects the characteristics of science gifted students. The purpose of this study is to investigate if the successful intelligence is fully reflected in the teaching materials of two gifted education centers (GECDOE: Gifted Education Center affiliated with District Office of Education, GSEIU: Gifted Science Education Institute attached to University). For this study, we selectively used 143 (GECDOE) and 134 questions (GSEIU) from the teaching materials of two gifted education centers. Those questions is analyzed through the semantic network analysis method. The results are as follow. First, the teaching materials of two gifted education centers are not evenly reflected in the successful intelligence, such as analytical ability, creative ability, and practical ability. Second, the teaching materials of two gifted education centers intensively demands analytical ability for students such as 'identify problem', 'represent and organize information', and 'additional prompts for analytical thinking'. Third, the teaching materials of two gifted education centers are presented to students without linking each frame of successful intelligence to one another. As the gifted students are quick to learn and show a preference for more complex thinking, it is necessary to develop teaching materials to experience the various abilities and promote integrated thinking according to the level of the gifted students. In this respect, this study is expected to be used as useful information for developing teaching materials to support customized education for gifted students.
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