• Journal of The Korean Association For Science Education
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• v.37 no.5
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• pp.825-833
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• 2017

The Korean Ministry of Education has emphasized human resource development with creative and convergent ability for future science and technology development. Korean STEAM Education aims to enhance students' interest and their understanding of science and technology as well as to develop students' creative problem-solving skills. Through STEAM R&E project, students experience self-directed research in order to solve the problem in the context of everyday life. In this study, we aim to find out whether the creative leader competency of high school students changed after they experienced the STEAM R&E project. The creative leader competency consisted of three domains: cognitive, affective, and societal domain. We measured the creative leader competency using the questionnaire scales. The questionnaire was administered to 612 high school students who participated in the 2016 STEAM R&E project. Pre- and post- test scores were collected, and we analyzed it. We compared the mean difference between pre- and post- test scores as well as the mean differences among science high school, gifted school, science core school, and general high school. From the result, we found that all student' creative leader competency improved after participating in the STEAM R&E project in all three domains. The result also showed that students' test scores of science high school and gifted school showed no significant mean differences, while student's scores of both science core school and general high school improved significantly. From the results, we concluded that STEAM R&E activities could be an effective tool in cultivating creative leader competency, especially for general high school students and science core school students. We also suggested that further researches are needed to find how we could enhance students' creative leader competency.

• Journal of the Korean Society of Earth Science Education
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• v.10 no.2
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• pp.122-139
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• 2017

The purposes of this study are to develop the STEAM program grounded on curriculum and to investigate educational effects of the developed program on students' attitude of science and science self-efficacy by application to elementary informal science education environment. In order to develop this program, the literature reviews were conducted and then STEAM education program based on the theme 'light' is developed. The developed program was revised and complemented through preliminary applications and consulting with experts, and applied to 65 students. A single group pre-post paired t-test was conducted through the students' attitude of science and science self-efficacy test. The semi-structure interviews were used to gather focused and additional data. The results of this study were as follows: firstly, STEAM education program was developed with the theme 'light' for elementary students in order to increase their interest related to real life. Secondly, the results indicated that the program was statistically significant on the attitude of science for the group of third and fourth graders. However, the effects of science self-efficacy did not appear a significant result for the third and fourth graders. They expressed one possible reason. The theme of light was not familiar with them because the theme was scheduled to teach in the second semester of the fourth graders. Some of students in this group did have a chance to learn the theme. Thirdly, the program was very effective for the fifth and sixth graders on their attitude of science and science self-efficacy. In conclusion, STEAM education program developed with the theme of light is contributed to elementary students' attitude of science in the informal science education. Students' learning experiences of relevant concepts can influence on students' science self-efficacy. It could be very important factor to consider students' grade level and previous learning experiences when the educational programs develop.

• Proceedings of the Korean Institute of Navigation and Port Research Conference
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• 2019.11a
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• pp.221-222
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• 2019

The rapid change in the administrative environment is bringing about changes in the civil service society, and the civil service society is also aware of the difficulty in responding to the changing circumstances of the existing recruiting system, and is attempting to change the new recruiting system. However, in a civil service society that emphasizes stability, it is not easy to change the recruiting system, and it is necessary to examine whether the recruitment of public official in the future is possible by the current recruitment method. Therefore, this study presents the talented people required for the future society through the literature and examines the current recruitment method for recruiting a talented people who meet the future required officials. In this paper, we suggest a four talents in the future : flexible pioneering talents, fused collaborative talents, creative information union talents, and emotional sympathetic talents. And also we will present a direction for the development of the approach.

• Journal of Science Education
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• v.43 no.2
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• pp.207-226
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• 2019

The purpose of this study is to investigate how fusion science program for undergraduate general education influences the understanding of Nature of Science (NOS) and STEAM Literacy of students majoring in science and engineering in college. The students participated in the pre/post NOS survey(Lee, 2013) and the STEAM literacy survey(Choi et al., 2013) in the program. The results of this study are as follows. First, the fusion program was effective in understanding the NOS because there is a statistically significant difference between the pre/post tests.(p < 0.01). Second, while there were no significant differences between genders, however, there is a significant difference in students' majors in NOS understanding(p < 0.05). Third, it showed that improvement in STEAM Literacy in Convergence and Creativity domains is significant(p < 0.01). By contrast, the Caring domain of STEAM Literacy was decreased statically significant(p < 0.01). In the end, there is no difference in STEAM Literacy between genders as well as among students' major(p < 0.05).

• Journal of Science Education
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• v.38 no.1
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• pp.120-132
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• 2014

This research aimed at developing STEAM Program with the medium of films for scientific talents in elementary schools and examining its influence on the problem solving ability, creative personality, and scientific attitude. The results were as follows: First, the STEAM program using movies was proved to be effective in forming creative personality, and a significant difference was found especially in the areas of patience/obsession, self conviction, sense of humor, curiosity, imagination, openness, adventurous spirit, and spirit of independence(p<.05). Second, the STEAM program using movies was found to be a successful way to improve their problem solving ability, and in particular, the difference was significant in the areas of planning an experiment and creative problem solving ability(p<.05). Third, the program was also found to be effective for the enhancement in their scientific attitude, and the difference, particularly in the areas of curiosity, openness, criticism, cooperation, spontaneity, patience, creativity and scientific attitude, was significant(p<.05). The study results above indicated that the STEAM program using movies was an efficacious way in forming creative personality, and enhancing creative problem solving ability and scientific attitude.

• The Science & Technology
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• s.471
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• pp.30-33
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• 2008

• Journal of Science Education
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• v.45 no.3
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• pp.364-378
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• 2021

This study explores the perception of Engineering Design of teachers who have long experience in the Integrated STEAM education. The teachers participating in this study were 12 elementary and secondary teachers with more than five years of experience in the Integrated STEAM Education. The study conducted semi-structured interviews. Interview questions focused on experiences of Integrated STEAM Education and recognition of Engineering Design, whether or not to reflect the curriculum of Engineering Design, and actual cases of Integrated STEAM Education with Engineering Design. As a result of this study, the teachers who participated in this study recognized that 'identification and coexistence of concepts for science, technology, and engineering' about Engineering Design, 'Creative design is possible when creativity is added to Engineering Design', 'Engineering Design is to analyze the economic feasibility and utility of the output created through the creative design process', 'Engineering Design is only for students who choose a career in science and engineering'. Based on this research, We need to establish and present correct concepts for science, technology, and engineering, and make an effort to include Engineering Design for solving scientific problems in the curriculum. In addition, we will have to develop and spread the Integrated STEAM Education program including Engineering Design and apply it in the field. Through this, we will have to find concrete action plans to improve the perception of science and engineering Integrated STEAM programs and Engineering Design among novice teachers and preservice teachers.

• Journal of The Korean Association For Science Education
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• v.35 no.6
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• pp.1007-1018
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• 2015

In the 21st century, in a Knowledge-Based Information Society, systems thinking is a very important human resources skill in science and technology, which is required in STEAM education in order to understand and solve complex problems. The purposes of this study are: (1) to develop a STEAM education program based on systems thinking; (2) to investigate the effects of the program on students' systems thinking. The systems thinking-based STEAM education program was developed on the basis of 'ADBAS' model (Park & Lee, 2013), and focused on the theme of watermill. A total of 60 high school students participated in this study. The results of this study showed that quantitatively as well as qualitatively, systems thinking skills improved after the treatment. In conclusion, the program we developed in this study can contribute in improving high school students' systems thinking skills and creative problem-solving abilities. The findings of this study may provide useful insights into cultivating human resources with systems thinking skills and creative problem-solving abilities.

• Journal of Gifted/Talented Education
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• v.24 no.3
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• pp.421-444
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• 2014

In STEAM education, contents that has been extracted from a variety of areas, so it can work closely and systematically. Therefore STEAM education requires systems thinking that can be grasped effectively these different disciplines. The purposes of this study are to develop a STEAM program based on systems thinking, and apply the program to the secondary science gifted student in order to investigate the educational effect. A model of the Program developed from previous research and theoretical contents of systems thinking and STEAM. A draft of the STEAM program was developed on the theme of "rocket". A total of 113 students was participated in this study. 100 seventh and 13 eighth graders were enrolled at seigy. A single group pre-post test paired t-test was conducted on them in systems thinking skills. Result of applying the program to the students as follows. The systems thinking ability was improved after the application of the program. 'Mental Model', 'Personal Skill', 'Team Learning', and 'System Analysis', 'Shared Vision' emerged for both improved significantly. In conclusion, the STEAM program based on system thinking improves students' systems thinking skills. This program of results can be helpful in cultivate human resources with the problem solving ability based on system thinking and STEAM literacy by used in public education curriculum.

• Science of Emotion and Sensibility
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• v.20 no.4
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• pp.79-88
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• 2017

As the age in which the importance of sensitivity has increased, education for the future generation regarding emotion engineering, affective recognition and cognitive science have taken center stage. We measure human's emotion quantitatively, analyze evaluation and apply them to various services in life, which are based on human technology. Therefore, we need the education which is related to emotion science to cultivate talented people. The goal of this paper is to suggest the possibility of emotion science education and effective methods through development of the STEAM (Science, Technology, Engineering, Arts, Mathematics) program which can teach emotion science to early elementary school students by applying it to pilot classes. For this study, first, we build a program, 'The mind made by figure' for student of early elementary school. The method of STEAM was used in this program, because it is an effective system to educate the emotion science. We recognize the needs and value of this program development through theory and benchmarking of STEAM related to emotion science. And then the contents of class, activities, course book and kit are designed with elementary school textbook of pertinent grade. Secondly, we analyze the result which is applied in two pilot classes of second grade by satisfaction survey and teacher interview. As a result, the average of satisfaction level was very high (4.40/5), Class participation was especially high. Third, we discuss the ability, value and limits of this program based on the result of analysis. The outcome of this research shows that students of early elementary school who have difficulty in understanding science can approach the education program related to emotion science with ease and interest. We hope this education will help students understand emotion science effectively, and to train people to lead the emotion centered era.