A Science Camp Program was developed and applied as an intensified course for gifted students. The implications for the development and implementation of out-of-school science activities were also deduced through the analysis of the preliminary application results. The key point of the science camp program is to boost students' science inquiry skills through self-directed activities. Several positive effects in terms of interest and participation in the program were observed and some implications were derived as follows; (1) The program should provide the students with more opportunities for discussion and debate in group activities. (2) The tasks need be divided into two parts; basic tasks and optional tasks in order to ensure that the students engage in fewer tasks more intensively. (3) Each activity needs sufficient orientation taking consideration of the possibility that not all students may be ready for the inquiry. (4) The use of real examples of scientific research processes can help the students develop open inquiry skills and problem posing skills.
The purposes of this study were to develop a science program using scientists as the material and to examine the effects of this in teaching science to gifted elementary students. The program included low modules, each of which was devised based on the literature examination of the lives, scientific achievements and contributions of four scientists: Ju-Myeong Seok, Jang-Chun Woo, L. Pasteur, and M. Curie. In this study, the four modules were applied and taught to fifteen gifted children in the 6th grade. After the program was taught to the children, post-questionnaires, examination of the subjects' output, in-depth interviews and classroom investigations were carried out and analyzed by the researchers. The results of the study were as follows. The majority of the subjects showed a considerable amount of interest in the program, participated actively and enthusiastically in the given tasks until they solved the problems, and their output produced a number of novel ideas. The results of the post-questionnaires indicated that the program was appropriate fer the subjects and effective in teaching scientifically-gifted children. Moreover, the analysis of the in-depth interviews conducted with the subjects showed that the subjects had opportunities to think about scientific attitudes, the relationships between science, society and nations, the contributions that scientists can possibly make to society, and the identity of scientists, despite the existence of differences between individual children.
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.
This study aims to compare self- and peer-assessments of science-gifted elementary students' scientific creativity. A science-gifted program on the Pascal's principle was implemented to 40 fifth-graders in the Science-Gifted Education Center for two weeks. After that, students presented their results from a scientific creativity task using the principle in class. The task was to devise a new and useful tool using the principle, and it included the students' self-assessment about their idea. During presentation, students were asked to assess the works of peers and write down the reasons that they gave the scores they gave. Shortly, student self- and peer-assessments about students' scientific creativity outcomes were compared. Based on two essential components of creativity, ideas that satisfy both originality and usefulness can be counted as scientifically creative. The main results of this study are as follows: First, the average scores of student self- and peer-assessments were 71.5 and 61.9. Second, the standard deviations of student self- and peer-assessments were 14.47 and 5.79. Third, among scientific creativity, originality, usefulness scores, only originality had a significant correlation between student self- and peer-assessment (r=.42). Fourth, the students were categorized into four groups according to the levels of their scores by student self- and peer-assessment. And the frequencies of peer-assessment group had a significant difference at p<0.05 level, according to self-assessment group (Chi Square=4.0000, df=1, p=0.0455). Fifth, through a case study by group, the results suggesting that self-assessment could be affected by the students' self-efficacy and perfectionism and such effect could also influence peer-assessment have been found. The result showed that how the student self- and peer-assessment of scientific creativity are different and what the students' thoughts on the evaluation of scientific creativity are. The findings suggested that there are several things to consider for the educators to make efforts to construct consistent assessment methods for scientific creativity.
In this paper, the activities for scientifically-gifted high school students in the 2006 International Young Physicists' Tournament were analyzed, from the perspective of the social aspects of creativity. To understand this, the process by which the activities were similar to the system model of creativity developed by Csikszen-tmihalyi were analyzed. Our aim was to elicit the educational implications of cooperative science problem solving skills and to discuss the results from their social perspective. It was found that participants interacted consistently with peers, teachers, and the culture that was developed during the course of the tournament. This was found to be very similar to the way in which novel knowledge in the system model of creativity is produced. In the tournament, the juries' assessment was based on students' presentations, discussions, and reviews. This was also very similar to how novel knowledge in the model is selected. Solving problems cooperatively and evaluating the results through group discussion are well reflected the social aspects of creativity. Due to the fact that such tournaments for scientifically-gifted elementary students are rapidly increasing in popularity, such activities will increasingly become more important. It is necessary, therefore, to study the social aspects of creativity for the gifted in elementary and middle school.
Overexcitability (OE) and social self-concept are the integral affective characteristics of science-gifted students. Overexcitability refers to sensitivity as an internal disposition to give a more often, longer and more intensive reaction to a wide variety of stimuli, and social self-concept refers to the way of behaving in society, especially at school in the case of students. The purpose of this study was to examine the overexcitability and social self-concept of science-gifted and non-gifted elementary school students. The subjects in this study were 135 gifted elementary students belonged to gifted education centers or gifted classes and 91 ordinary elementary students. An overexcitability test and a social self-concept test were conducted to the subjects, and the collected data were analyzed by SPSS. The findings of the study were as follows: First, the score of the science-gifted was significantly higher than that of the ordinary students in all sub-domain of OE (psychomotor OE, sensual OE, emotional OE, intellectual OE, emotional OE) and social self-concept. Second, the science-gifted students who attended gifted education centers and community gifted classes scored significantly higher than the ordinary students in overexcitability. Based on conclusions, implications for teaching the science-gifted were discussed.
This study analyzed the use of visualization materials in "free inquiry" reports for scientifically-gifted elementary school students focusing on infographics. From 2017 to 2019, 78 students in grades 4~6 at a gifted science education institutes in Seoul were selected. The visualization materials in the reports (n=60) of "free inquiry" submitted by the students were analyzed from the viewpoint of using infographics. The analysis of the results showed that the visualization materials were mostly general illustrations, and infographics were very few. In addition, there were more cases of citing the existing infographics than the case of constructing the infographic. Looking at each stage of inquiry, general illustrations or infographics composed by the students appeared in 'inquiry method' or 'inquiry result' stage, but the existing infographics appeared in 'theoretical background' stage. Among the infographic types by 'expression type', 'structural type' and 'process type' were the most frequent and 'statistical type' or 'comparative/analytic type' was used frequently. Among the infographic types by 'construction level', 'simple reorganization', 'simple layout', and 'reorganization' appeared relatively more. Educational implications of these findings are discussed.
The Purpose of this study is to investigate the general trends of research on gifted education in Korea, by analyzing the articles published during the last thirty years. A total of 347 articles from 14 academic journals which are registered were yearly and synthetically analyzed. The articles were examined in terms of their topics, domains, and age and grade. The most widely researched topic was the cognitive characteristics of the gifted followed by curriculum and affective characteristics of the gifted. Studies on scientifically, generally and mathematically gifted students occupied 86% of total researches. Researches utilized elementary students as their subjects more than middle school or high school students. There is a lack of research on the problems that the gifted students face and on the assessment of gifted education institutes. Moreover, there is hardly any longitudinal study.
Journal of The Korean Association For Science Education
/
v.30
no.1
/
pp.54-67
/
2010
The purpose of this study was to investigate research trends in the area of science education for the gifted through the analysis of articles published from 1999 to 2009. The articles were analyzed by subjects, topics and study method. In the analysis according to year, we discovered that the number of articles has increased since 2005. Most research subjects were middle school students. Other research subjects included elementary and high school students. The first topic that was researched in general was the characteristics of the scientifically gifted. The second topic was the curriculum and program of science education for the gifted. It was also found that the method most employed was surveys, followed by experimental study.
The aims of this study were to investigate the differences of the proportion of misconceptions and the reasons for selecting responses related to questions about small living things between talented and average students. The study subjects were made up of three groups. They were a class of 37 talented elementary students in science attending J National University of Education, a class of 37 talented students in science attending J City Office of Education, and a class of 33 average students attending J City. A questionnaire was composed of 20 test questions for examination of concepts related to small living things. The data obtained in this study was analyzed using a statistical program. The major results were as follows: In general, the level of the scientific concepts possessed by the talented students was much higher than that of the average students, especially in question 14. The reasons for the misconceptions which were revealed through this study were classified into vagueness of the language used, hasty decision and deduction making, using the wrong analogical inference, mass communications (TV or internet) and experimental differences between individuals. In terms of the reasons for the selection of a given response, the talented students had also a higher frequency in the 'science books for children' category than the average students, indicating that various kinds of science books for children have an influence on the formation of concepts on small living things. The misconception proportion of male students was 5.4% higher than that of female students in mean frequencies of all questions, although the difference was not statistically significant except for question 4. Data from this study may help teachers involved in education for gifted students to reconsider their conceptions on small living things.
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