References
- Cheong, Y., Kim, E., Jung, M., & Lee, J. (2014). Development of a question list in accordance with stage of research, which guides open inquiry of gifted students in science. Journal of Gifted/Talented Education, 24(1), 63-80. https://doi.org/10.9722/JGTE.2014.24.1.63
- Chi, E. & Ju, U. (2012). Exploring the construct and developing the scale for the measurement of creative leader competency. Journal of Educational Evaluation, 25(1), 69-94.
- Cho, Y. (2011). The direction of teaching and learning for creative leader cultivation. In Korea Institute for Curriculum and Evaluation (Ed.) Forum on the Direction of Secondary School Education for Fostering Creative Leadership: How should secondary school education change to foster creative leadership?(ORM 2011-17). Seoul: Korea Institute for Curriculum and Evaluation:
- Choe, H. & Tae, J. (2015).The meaning and value of R&E(Research and Education) experiences of science specialized high schools: gathering voices of graduates by individual interview. The Journal of the Korean Society for the Gifted and Talented 14(3), 51-79.
- Choi, H., Kang, H., Seo, H., Park, I., Lee, H., Lee, J., Park, K., & Park, J. (2003). Development of research & education program for the enhancement of creativity (Korean Foundation of Advanced Creativity (Korea Science and Engineering Foundation Report 2002-5092).
- Choi, S., Kim, J., Ban, S., Lee, K., Lee, S., & Choi, H. (2011). Future strategies for educating creative talents in the 21st century(Korea Institute for Curriculum and Evaluation Report RR2011-01)
- Cropley, A. J. (2001). Creativity in Education and Learning. London: Kogan Page.
- Gu, M. Kim, J., Park, C., Kim, Y., & Seo, Y. (2011). Analyzing the creative process of the pauling's research for science gifted education. Journal of Gifted/Talented Education, 24(1), 63-80.
- Han, K., Chun, M., Mah, J., & Shin, Y. (2009). An analysis of adaptability for the self-designed concentration and independent study, 3(2), 101-121.
- Han, W., Kang, Y., & Kim, J. (2013). Problem-finding and problem-solving processes under ill-structured scientific problem situation for high school students. Teacher Education Research, 52(2), 195-214. https://doi.org/10.15812/ter.52.2.201308.195
- Houseal, A. K., Abd-El-Khalick, F., & Destefano, L. (2014). Impact of a student-teacher-scientist partnership on students' and teachers' content knowledge, attitudes toward science, and pedagogical practices. Journal of Research in Science Teaching, 51(1), 84-115. https://doi.org/10.1002/tea.21126
- Hwang, Y. (2015). Development of strategies for education about research design to student researchers in science and engineering through extraction of problem specification elements (Doctoral dissertation). Kyungpook National University, Daegu.
- Johnson, S. K. & Johnson, K (1986). Independent study program. Waco, TX. Purfrock Press.
- Jung, H., Chae, Y., & Ryu, C. (2012). Study on Research and Education (R&E) programs in science high schools and science academies: focusing on the differences of perceptions between students and mentors. Journal of the Korean Association for Research in Science Education, 32(7), 1139-1156. https://doi.org/10.14697/jkase.2012.32.7.1139
- Jung, H., Ryu, C., & Chae, Y. (2012). Research and Education (R&E) programs in the science high schools and gifted high schools: based on the interview results with the R&E coordinators. Journal of Gifted/Talented Education, 22(2), 243-264. https://doi.org/10.9722/JGTE.2012.22.2.243
- Kim, S. (2011). Direction of evaluation of education for creative leader upbringing. In Korea Institute for Curriculum and Evaluation (Ed.) Forum on the Direction of Secondary School Education for Fostering Creative Leadership: How should secondary school education change to foster creative leadership?(ORM 2011-17). Seoul: Korea Institute for Curriculum and Evaluation.
- Kim, Y. (2017, July 12). Science high school and gifted school students, they fallen behind with the general high school students in the third grade of college. Article of chosun.com. Retrieved from http://news.chosun.com/site/data/html_dir/2017/07/12/2017071200311.html
- Kim, W., Kim, Y., Seo, H., & Park, J. (2013). Thomas Young's problem solving through analogical reasoning in the process of light inference theory formation and its implications for scientific creativity education. Journal of Gifted/Talented Education, 23(5), 817-833. https://doi.org/10.9722/JGTE.2013.23.5.817
- Kim, S., Mun, K., Hwang, Y., Mun, J., Gao, L., & Cho, M. (2016). Report about 2016 STEAM R&E Support and Research Team(2-2016-0862-001-1). Seoul: Korea Foundation for the Advancement of Science & Creativity.
- Kim, J., Na, J., & Song, J. (2017). Exploring the possibility of forming the strategic community of practice for science education: a case of science core schools in Korea. Journal of Korean Science Education Association, 37(1), 169-179.
- Kim, Y., Seo, H., & Park, J. (2013). An analysis on problem-finding patterns of well-known creative scientists. Journal of the Korean Association for Research in Science Education, 33(7), 1285-1299. https://doi.org/10.14697/jkase.2013.33.7.1285
- Kwak, Y. (2011). The concept of creative leader to be taught through school education. In Korea Institute for Curriculum and Evaluation (Ed.) Forum on the Direction of Secondary School Education for Fostering Creative Leadership: How should secondary school education change to foster creative leadership?(ORM 2011-17). Seoul: Korea Institute for Curriculum and Evaluation
- Lee, K., Cho, N., Oh, E., Kwan, J., Kim, H., Chi, E., & Hong, W. (2011). A study on the improvement of secondary school education for cultivating students' creativity (Korea Institute for Curriculum and Evaluation Report RRC 2011-2).
- Lee, K., Choi, Y., Hwang, S. (2011). Development of creative problem solving program based on team project. Korean Society for Creativity Education, 11(2), 141-160.
- Lee, M. & Kim, H. (2016). Science high school students' shift in scientific practice and perception through the R&E participation: on the perspective of legitimate peripheral participation in the community of practice. Journal of the Korean Association for Research in Science Education, 36(3), 371-387. https://doi.org/10.14697/jkase.2016.36.3.0371
- Lim, J. (2004). A Study on applicability of blended learning strategy in K-12 school setting. Korean journal of educational research, 42(2), 399-431.
- Moss, D. M., Abrams, E. D., & Kull, J. A. (1998). Can we be scientists too? Secondary students' perceptions of scientific research from a project-based classroom. Journal of Science Education and Technology, 7, 149-161. https://doi.org/10.1023/A:1022564507639
- Mun, J. (2015). Characteristics of the scientific imagination in scientists' inquiry process (Doctoral dissertation). Ewha Womans University, Seoul.
- Park, J., Yoon, J., Kang, S. (2014). The development on core competency model of scientist and its verification for competency-based science gifted education. Journal of Gifted/Talented Education, 24(4), 509-541. https://doi.org/10.9722/JGTE.2014.24.4.509
- Renzulli, J. S. & Reis, S. M. (1997). The schoolwide enrichment model: How-to-guide for educational excellence (2nd ed.). Mansfield Center, CT: Creative Learning Press.
- Seo, H., Jung, H., Son, J., Choi, K., Ha, B., Park, J. Sung, Y. (2006). Directions for establishment of a science academy in Gyeonggi-Do (Gyeonggi Research Institute Report).
- Seo, J., Han, S., Kim, H., & Jeong, J. (2012). Science high school students' analysis of characteristics on ill-structured problem-solving process. Journal of the Korean Society of Earth Science Education, 5(1), 8-19.
- Shin, N., Jonassen, D., & McGee, S. (2003). Predictors of well-structured and ill-structured problem solving in an astronomy simulation. Journal of Research in Science Teaching, 40(1), 6-33. https://doi.org/10.1002/tea.10058
- Sun, K. (2014). A study on the effects of teachers' feedback and methods of performance assessment on Korean writing skills and creative leader competency (Doctoral dissertation). Kyung Hee University, Seoul.
- Yu. Y., Kang Y., & Kim, J. (2013). The relationships among scientific creativity and general creativity, meta-cognition, and affective characteristics. Study of Curriculum and Instruction, 17(1), 109-128. https://doi.org/10.24231/rici.2013.17.1.109