References
- Baek, J. (2016). An analysis on the characteristics of problem-finding and the aspects of using science and technology of undergraduate students' convergence problem solving activity. Journal of Korean Association for Science Education, 36(6), 867-876. https://doi.org/10.14697/jkase.2016.36.6.0867
- Barrows, H. S., & Tamblyn, R. M. (1980). Problem-based learning: An approach to medical education. Springer Publishing Company.
- Butterfield, H. (1957). The Origins of Modern Science (rev. ed.). New York, NY: Free Press.
- Cho, S. S. (2018). An Inquire into the organization and operate of optional subjects following the 2015 revised curriculum system (Report No. 11-1342000-000359-01). Ministry of Education.
- Cho, Y. (2001). An Examination of Problem-Based Learning (PBL) as a Teaching-Learning Model for Infusing Creative, Critical Thinking with Knowledge of Subjects. The Journal of Elementary Education, 14(3), 295-316.
- Cho, Y. (2006). 문제중심학습의 이론과 실제: 문제로 시작하는 수업[Theory and Practice of Problem-Based Learning: Classes that Start with Problems], Seoul: Hakjisa.
- Choi, K., & Cho, H.. (2003). Ethical teaching/learning methods of science. Journal of Korean Association for Science Education, 23(2), 131-143.
- Conant, J. B. (1953). On understanding science: An historical approach. New Haven, CT: Yale University Press.
- Helmane, I., & Briska, I. (2017). What is developing integrated or interdisciplinary or multidisciplinary or transdisciplinary education in school? Signum Temporis, 9(1), 7-15. https://doi.org/10.1515/sigtem-2017-0010
- Hung, W. (2015). Problem-Based Learning: Conception, Practice, and Future. In Y. H. Cho, I. S. Caleon, & M. Kapur. (Eds.), Authentic problem solving and learning in the 21st century: Perspectives from Singapore and beyond (Ch. 5, pp. 75-92). Singapore: Springer.
- Jeong, J. Y., & Noh, S. G. (2017). The effect of the open inquiry education program using science history on elementary school students' variable controlling abilities and hypothesis generating abilities. Journal of Learner-Centered Curriculum and Instruction, 17(4), 193-214. https://doi.org/10.22251/jlcci.2017.17.4.193
- Jonassen, D. H. (1997). Instructional design models for well-structured and ill-structured problem-solving learning outcomes. Educational Technology Research and Development, 45(1), 65-94. https://doi.org/10.1007/BF02299613
- Kang, S., Kim, Y., & Noh, T. (2004). The influence of small group discussion using the history of science upon students' understanding about the nature of science. Journal of Korean Association for Science Education, 24(5), 996-1007.
- Kang, Y.-M., & Shin, Y.-J. (2011). The effects of various instructional activities using the history of science on science learning motivation of elementary school students. Journal of Korean Elementary Science Education, 30(3), 330-339. https://doi.org/10.15267/KESES.2011.30.3.330
- Kaufman, D., Moss, D. M., & Osborn, T. A. (2003). Beyond the boundaries: A transdisciplinary approach to learning and teaching. Praeger. Westport, CT.
- Kim, H,. (2012). A Study on Categorizing Learning Outcomes and Learning Affections According to Learning Process in PBL Class (Unpublished doctoral dissertation). Kyung Hee University, Seoul, Republic of Korea.
- Kim, H.-J., & Kim, S.-W. (2013). The characteristics of perceptual change of high school of the arts students through explicit instructions on the nature of science. Journal of Korean Association for Science Education, 33(2), 266-283. https://doi.org/10.14697/jkase.2013.33.2.266
- Kim, Y., Seo, H.-A., & Park, J. (2013). An analysis on problem-finding patterns of well-known creative scientists. Journal of Korean Association for Science Education, 33(7), 1285-1299. https://doi.org/10.14697/jkase.2013.33.7.1285
- Lederman, N. G. (1999). Teachers' understanding of the nature of science and classroom practice: factors that facilitate or impede the relationship. Journal of Research in Science Teaching, 36(8), 916-929. https://doi.org/10.1002/(SICI)1098-2736(199910)36:8<916::AID-TEA2>3.0.CO;2-A
- Lee, B., & Shin, D. (2011). Professionals' opinion of science education using history of science. Journal of Korean Association for Science Education, 31(5), 815-826. https://doi.org/10.14697/JKASE.2011.31.5.815
- Lee, J., & Shin, D. (2015). Possibilities of integrated HOS (history of science) cases as a subject of environmental education. The Environmental Education, 28(4), 242-261.
- Lim, Y., & Shin, Y. (2014). An analysis of students' difficulty on science stories in elementary school science textbooks - Focusing on 6th grade science. Journal of Science Education, 38(3), 525-542. https://doi.org/10.21796/jse.2014.38.3.525
- Matthews, M. R. (2014). 과학교육: 과학사와 과학철학의 역할 [Science teaching: The role of history and philosophy of science] (권성기, 송진웅, 박종원, Trans.). Seoul: Bookshill. (Original edition 1994).
- Ministry of Education (2015). 2015 revised science curriculum. (p. 225). Ministry of Education 2015-74 [issue 9]. Retrieved from http://ncic.re.kr
- Oh, H., Kim, H., Bae, H. J., Seo, D. I., & Kim, H. (2012). What drives convergence? The Journal of Research in Education, 43, 51-82.
- Parnes, S. J. (1992). Source Book for Creative Problem Solving. Buffalo: Creative Foundation Press.
- Park, G.-S. & Yoo, M.-H. (2013). The effects of ‘science history based chemist inquiry program' on the understanding toward nature of science, scientific attitudes, and science career orientation of scientifically gifted high school students. Journal of the Korean Chemical Society, 57(6), 821-829. https://doi.org/10.5012/jkcs.2013.57.6.821
- Park, S., Chung, W., & Park, Y. (2016). Analysis on the utilization of history of science and STEAM and elementary school teachers' perceptions about design-based STEAM instruction applying the history of science in science class. Journal of Science Education, 40(2), 166-188. https://doi.org/10.21796/jse.2016.40.2.166
- Schmidt, H. G., & Moust, J. (2000). Towards a taxonomy of problems used in problem-based learning curricula. Journal on Excellence in College Teaching, 11(2/3), 57-72.
- Seo, D. H., Lee, Y. H., & Jho, H. (2017). Development and implementation of the history of science and technology program for understanding of technical high school students about the nature of science. Journal of Science Education, 41(1), 60-79. https://doi.org/10.21796/jse.2017.41.1.60
- Shin, D., & Shin, H. (2012). Development of a teaching-learning model for science ethics education with history of science. Journal of Korean Association for Science Education, 32(2), 346-371. https://doi.org/10.14697/jkase.2012.32.2.346
- Solomon J., Duveen, J., Scott, L., & McCarthy, S. (1992). Teaching about the nature of science through history: Action research in the classroom. Journal of Research in Science Teaching, 29(4), 409-421. https://doi.org/10.1002/tea.3660290408
- Song, J.-W., & Kwon, S. (1992). The change of postgraduate students' conceptions towards the nature of science through the course related to philosophy of science. Journal of Korean Association for Science Education, 12(1), 1-9.
- Tsai, C. C., & Liu, S. Y. (2005). Developing a multi-dimensional instrument for assessing students' epistemological views toward science. International Journal of Science Education, 27(13), 1621-1638. https://doi.org/10.1080/09500690500206432
- Yang, I-H., Han, K-G., Choi, H-D., Oh, C-H., & Cho, H-J. (2005). Investigation of the relationship between beginning elementary teachers' beliefs about the nature of science and science teaching and learning context. Journal of Korean Elementary Science Education, 24(4), 399-416.
- Yin, R. K. (2003). Case study research: Design and methods (3rd ed.). Thousand Oaks, CA: Sage.
- Yoo, M.-H., Yeo, S.-I., & Hong, H.-G. (2007). The effect of science history program developed by genetic approach on student's conception toward particulate nature of matter and understanding about the nature of science. Journal of the Korean Chemical Society, 51(2), 213-222. https://doi.org/10.5012/jkcs.2007.51.2.213
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