1 |
Magnusson, S., Krajcik, J. & Borko, H. (1999). Nature, sources, and development of pedagogical content knowledge for science teaching. In Gess-Newsome, J. & Lederman, N. G. (Eds.), Examining pedagogical content knowledge (pp. 95-132). Dordrecht, The Netherlands: Kluwer.
|
2 |
Ministry of Education (2015). The science curriculum. MOE Public Announcement, 2015-74.
|
3 |
Ministry of Education and Science Technology (2011). The science curriculum according to the 2009 revised curriculum. Ministry of Education and Science Technology.
|
4 |
Mishra, P. & Koehler, M. J. (2006). Technological pedagogical content knowledge: A framework for teacher knowledge. Teachers College Record, 108(6), 1017-1054.
DOI
|
5 |
Mishra, P. & Koehler, M. J. (2008). "Introducing tpck" Handbook of technological pedagogical content knowledge (TPCK) for educators. NY: Routledge, 3-29.
|
6 |
OECD (2010). "Inspired by technology, driven by pedagogy: A systemic approach to technology-based school innovations," OECD Publishing.
|
7 |
Sanders, M. (2009). STEM, STEM education, STEM mania. The Technology Teacher, 68(4), 20-26.
|
8 |
Shin, T. (2013). A relation between pre-service teachers' fixed mindsets regarding their abilities to teach with technology and their perceived TPACK. Journal of Educational Studies, 44(2), 21-45.
|
9 |
Shulman, L. S. (1986). Those who understand: Knowledge growth in teaching. Educational Research, 15(2), 4-14.
DOI
|
10 |
Tak, J. & Yoo, M. (2019). The effects of creativity-convergence program utilizing virtual reality creation platform on elementary school students' creative problem solving ability, 21st century skills and learning interest about social subject. The Journal of Korean Practical Arts Education, 24(4), 73-101.
|
11 |
Yakman, G. (2006). STEAM pedagogical commons for contextual learning. Unpublished class paper for EDCI 5774, Virginia Tech.
|
12 |
Yakman, G. (2008). STEAM education. An overview of creation a model of integrative education. PATT.
|
13 |
Yoon, Y. (2019). STEAM education program based on micro-bit. Master's thesis, Jeonbuk National University.
|
14 |
Yun, M. & Kim, S. (2003). A study on constructs of subject-specific interests and its relationship with academic achievement. Journal of Korean Educational Psychology Association, 17(3), 271-290.
|
15 |
Thompson, A. D. & Mishra, P. (2007). Breaking news: TPCK becomes TPACK!. Journal of Educational Computing Research, 24(2), 38-64.
|
16 |
Barrow, H. S. & Tamblyn, R. M. (1980). Problem-based learning: An approach to medical education. New York: Springer Publishing Company.
|
17 |
Angeli, C. & Valanides, N. (2009). "Epistemological and methodological issues for the conceptualization, development, and assessment of ICTeTPCK: Advances in technological pedagogical content knowledge(TPCK),". Computers & Education, 52(1), 154-168.
DOI
|
18 |
Archambault, L. & Crippen, K. (2009). Examining TPACK among K-12 online distance educators in the United States. Contemporary Issues in Technology and Teacher Education, 9(1), 71-88.
|
19 |
Bae, M. (2017). The effects of instruction of 'Structure and function of human body' unit applying cognitive domain-centered brain-based evolutionary approach on the elementary school students' interest, achievement and Scientific Creativity. Master's thesis, Seoul National University of Education.
|
20 |
Barrow, H. S. (1994). Practice-based learning: Problem-based learning applied to medical education. Springfield, IL: Southern Illinois University School of Medicine.
|
21 |
Cho, Y. (2006). The theory and practice of problem-based learning: A problem-initiated class. Hakjisa.
|
22 |
Choi, Y. M. & Hong S. (2019). Designing and implementing integrated lessons for pre-service elementary teachers' technological pedagogical content knowledge development. Journal of Korean Elementary Science Education, 38(2), 287-304.
DOI
|
23 |
Eom, J. & Kwon, Y. (2016). Development of the biomimicry-focused convergence teaching program using 3D modeling & printing in life science. Biology Education, 44(4), 658-673.
DOI
|
24 |
Foulger, T. S. & Slykhuis, D. A. (2013). TPACK as a tool for teacher professional learning. Learning & Leading with Technology, 41(1), 20-22.
|
25 |
Grossman, P. L. (1990). The making of a teacher: Teacher knowledge and teacher education. New York: Teachers College Press.
|
26 |
Hmelo-Silver, C. E. (2004). Problem-based learning: What and how do students learn?. Educational Psychology Review, 16(3), 235.
DOI
|
27 |
Hong, J. & Hong, S. (2019). The effects of fractal STEAM lesson for plant structure on scientific process skills, creative problem-solving ability and scientific interest using 3D printer. Biology Education, 47(1), 50-58.
DOI
|
28 |
Jeong, E. (2008a). The development of teaching-learning materials for an instructional improvement in unit of the structure of human body of elementary school science. Master's thesis, Jeonbuk National University.
|
29 |
Korean Educational Development Institute (2001). A study on the development of simple and creative problem solving test (I). Korean Educational Development Institute.
|
30 |
Jeong, E. (2008b). The effects of Squeak Etoys based informatics education on the effects of Squeak Etoys based informatics education on elementary school student's creative problem solving ability. Master's thesis, Korea National University of Education.
|
31 |
Kim, H. & Choi, S. (2019). The development and application of the SW-STEAM program using unplugged computing for elementary science class. Biology Education, 47(2), 213-222.
DOI
|
32 |
Kim, M. & Hong, S. (2019). Influences of 'earthquakeresistant design' STEAM class on creative problem solving abilities and STEAM attitude of elementary students. Journal of Energy and Climate Change Education, 9(2), 125-135.
|
33 |
Kim, S. & So, K. (2016). The effect of project based learning using smart devices on the science learning motivation, creative personality and creative problem-solving ability of elementary scientific gifted. Biology Education, 44(3), 364-371.
DOI
|
34 |
Ko, D. & Hong, S. (2019). Development and application of TPACK based STEAM program using 3D printer. Biology Education, 47(2), 153-170.
DOI
|
35 |
Korea Foundation for the Advancement of Science and Creativity (2015). A study on the satisfaction of the development of STEAM program in 2015. Korea Foundation for the Advancement of Science and Creativity.
|
36 |
Lee, H. (2011). The effects of scientific tales on science learning in elementary school. Master's thesis, Seoul National University of Education.
|
37 |
Lee, S. (2015). The effect of the design based STEAM program utilizing smart device for interest in science and STEAM literacy. Journal of Korean Society of Earth Science Education, 8(3), 240-250.
DOI
|
38 |
Lee, S. & Hong, S. (2019). The development and application effects of STEAM program utilizing animation production about 'structure and function of the our bBody'. Journal of Korean Elementary Science Education, 38(2), 263-274.
DOI
|