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http://dx.doi.org/10.15267/keses.2014.33.2.231

Exploring Domestic and International Elementary School Convergence Science Education Program - Korea, the U.S., and the U.K. -  

Na, Sanghoon (Galdam Elementary School)
Kwon, Nanjoo (Gyeongin National University of Education)
Publication Information
Journal of Korean Elementary Science Education / v.33, no.2, 2014 , pp. 231-241 More about this Journal
Abstract
This study is subject to compare the STEAM and the STEM education of Korea, the U.K., and the U.S. to find their differences and similarities, as well as the implications in implementing the STEAM education in Korea. In order to accomplish this, the educational objectives, contents and topics, teaching and learning methods, subjects and timing for education, and convergence curriculum were compared; also, after choosing the representative program of each country, a cross-comparative analysis was done for the teaching and learning method distribution ratio, content element distribution ratio, program distribution ratio, STEAM domain ratio, curriculum structure and domain ratio, frequency of inquiry process, basic inquiry, integrated inquiry frequency, hourly basic inquiry, and integrated inquiry process. As a result, it was possible to obtain 77 programs, a total of 656 class hours of Korea, 65 programs and 846 class hours of the U.S., and 75 programs and 774 class hours of the U.K. The results are as follows: Korea's STEAM and the U.K. and the U.S.' STEM all include science, technology, engineering, arts, and mathematics, but in terms of frequency, Korea's STEAM has higher figure in arts. However, the U.K. and the U.S. have higher frequency of debate and discussion, and there were many cases of a student, after receiving feedback from other students, modifying the work.
Keywords
STEM education; STEAM education; interdisciplinary; converging; consilience; elementary science education; convergence science education;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Park, S. (2010). Understanding of knowledge management on knowledge fusion. Korean Journal of Educational Research, 48(1), 83-101.
2 Ahn, J. & Kwon, N. (2012). The analysis on domestic research trends for convergence and integrated science education. Journal of Science Education, 32(2), 265-278.
3 Young engineers, Retrieved November 9, 2011, from http://www.youngeng.org/home.asp
4 Moon, D., Choi, U. & Lee, J. (2007). Analysis and selection of learning activities to develop creative problem solving based workbook of technology education. Journal of Practical Arts Education, 20(2), 217-235.
5 NCTM (National Council of Teacher of Mathematics). (1989). Curriculum and evaluation standards for school mathematics. Reston, VA: Author.
6 NHRI (Natural History Research Institute), Retrieved December 15, 2011, from http://www.nhri.re.kr/
7 NRC (National Research Council) (2011). A framework for K-12 science education practices, cross cutting concepts, and core ideas. National Academy of Science.
8 Nuffield Foundation, Retrieved July 9, 2011, from http://www.nuffieldfoundation.org/teachers
9 Sanders, M. (2006). A rationale for new approaches to STEM education and STEM education graduate programs. 93rd Mississippi Valley Technology Teacher Education Conference, Nashville, TN. (Nov. 3, 2006). 1-17.
10 Sanders, M. (2009). STEM, STEM education, STEM mania. The Technology Teacher, 68(4), 20-26.
11 Science Technology Concepts $Program^{TM}$, Retrieved August 7, 2011, from http://www.carolinacurriculum.com/stc/
12 Woo, J. & Lee, H. (1995). The development of a test of earth science inquiry skills for high school student. Journal of Science Education, 15(3), 91-103.
13 Yakman, G. (2008). $ST\Sigma$@M education : An overview of creating a model of integrative education, PATT. http://www.steamedu.com/2088_PATT_Publication.pdf
14 Yakman, G. & Kim, J. (2007). Using BADUK to teach purposefully integrated. STEM/STEAM education. 37th Annual Conference International Society for Exploring Teaching and Learning, Atlanta, Georgia, (Oct. 11-13, 2007).
15 Gwak, B. (2009). Knowledge fusion era and integrated curriculum. Journal of Curriculum Integration, 4, 1-13.
16 Cedar Park Elementary School, Retrieved February 17, 2012, from http://www.district196.org/cp/
17 CREST, Retrieved April 8, 2012, from http://www.britishscienceassociation.org/creststar
18 EIE (Engineering is Elementary(R)), Retrieved March 24, 2012, form http://www.mos.org/eie/
19 I3 (Invention-Innovation-Inquiry), Retrieved October 24, 2011, from http://www.iteea.org/i3/index.htm
20 IMSA Fusion, Retrieved September 8, 2011, from http://www3.imsa.edu/programs/fusion
21 Lee, I. (2008). The great convergence of knowledge [지식의 대융합]. Seoul: Godswin.
22 ITEA (International Technology Education Association). (2000). Standards for technological literacy : Content for the study of technology. Boston, VA: Author.
23 Kang, C. & Jung, K. (2009). The direction for the future elementary integrated curriculum. Journal of Curriculum Integration, 3(2), 19-42.
24 KOFAC (Korea Foundation for The Advancement of Science & Creativity). (2011). International seminar on STEM education & workbook of STEAM teacher study group orientation. [STEN 교육 국제 세미나 및 STEAM 교사연구회 오리엔테이션 자료집]. http://www.kofac.re.kr/com/jsp/board
25 Lee, J. (2010). The cognitive science and the convergence of interdisciplinary principles and practices. Journal of Social Sciences, 32(1), 3-46.
26 Ministry of Education & Human Resources Development (2001). Elementary science teacher commentary [초등학교 교사용 과학 지도서], Seoul: Author.
27 Ministry of Education (1997). Elementary curriculum commentary [초등학교 교육과정 해설서], Seoul: Author.
28 Moon, D. (2008). The development of pre-engineering educational program model based on STEM integration approach. Journal of Engineering Education, 11(2), 90-101.