Scenario-based elearning and stem education: A qualitative study exploring the perspectives of educators

Proudfoot, David E.; Kebritchi, Mansureh

doi:10.5937/IJCRSEE1701007P

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International Journal of Cognitive Research in Science, Engineering and Education

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International Journal of Cognitive Research in Science, Engineering and Education

2017, vol. 5, br. 1, str. 7-18

Scenario-based elearning and stem education: A qualitative study exploring the perspectives of educators

(naslov ne postoji na srpskom)

Proudfoot David E., Kebritchi Mansureh

University of Phoenix, School of Advanced Studies Center for Educational and Instructional Technology Research, Arizona, USA

e-adresa: dproudfoot@email.phoenix.edu, Mansureh.Kebritchi@phoenix.edu

Ključne reči: scenario based learning; STEM; student engagement; eLearning; motivation

Sažetak

(ne postoji na srpskom)

There are a variety of extra curricular activities and programs that aim to promote Science, Technology, Engineering, and Mathematics (STEM) education, but there are limited examples of extending STEM curriculum by employing scenario-based eLearning opportunities in a mobile lab learning environment. Following students participation in a first of its kind STEM Mobile Lab program that uses a scenario-based eLearning approach for instruction, twelve educators from four Title I elementary schools were asked about their perceptions of the influence of the Mobile Lab program on the STEM education of their students. The semi-structured interview protocol contained questions intended to explore participants' perceptions regarding the influence of a scenario-based eLearning Mobile STEM Lab program on the STEM interest and achievement of students. The study found that a scenario-based eLearning Mobile STEM Lab can influence STEM interest and achievement of elementary students. This promising finding leads to a recommendation for educators to use this approach and similar programs to make students more interested in science and improve their grades. Efforts by educators to design and implement scenario-based eLearning opportunities lead to increased learner engagement.

	Reference
	Barrows, H.S. (1996) Problem-based learning in medicine and beyond: A brief overview. New Directions for Teaching and Learning, 1996(68): 3-12
	Carnegie Science Center (2014) The role of STEM education in improving the tristate regions workforce. Retrieved from
	Chesloff, J.D. (2013) STEM education must start in early childhood. Education Week, 32(23); 27-32; http://maroundtable.com/doc_news/1303_EdWeek_STEMEarlyChildhood.pdf
7	Dewey, J. (1938) Experience and education. London-New York, itd: Macmillan Publishing
	Elmore, B., Mariappan, J., Hays, G. (2003) Improving Performance through Simulation: A Scenario Based Learning Approach. Experia Solutions, White Paper
	Gallagher, S.A., Gallagher, J.J. (2013) Using Problem-based Learning to Explore Unseen Academic Potential. Interdisciplinary Journal of Problem-Based Learning, 7(1):
	Gijselaers, W.H. (1996) Connecting problem based practices with educational theory. u: Wilkerson L.; Gijselaers W.H. [ur.] Bringing problem-based learning to higher education: Theory and practice, San Francisco: Jossey-Bass, pp. 13-21
	Grider, C. (1993) Foundations of cognitive theory: A concise review. Retrieved from http://files.eric.ed.gov/fulltext/ED372324.pdf
1	Gutek, G.L. (1997) Philosophical and ideological perspectives on education. New York, NY: Prentice-Hall, 2nd ed.; https: //eric. ed. gov/?id=ED419763
	Hanover Research (2012) Best practices in elementary STEM programs. Retrieved from
	Hom, E.J. (2014) What is STEM education?. Retrieved from
	Honey, M., Pearson, G., Schweingruber, H., Eds. (2014) STEM integration in K-12 education: Status, prospects, and an agenda for research. Washington, D.C: National Academies Press, http://www.middleweb.com/wp-content/ uploads/2015/01/STEM-Integration-in-K12-Education.pdf
	Johnson, J.A., Musial, D., Halle, G.E., Gollnick, D.M., Dupuis, V.L. (2005) Introduction to the foundations of American education. Boston, MA: Pearson, 13th ed
	Lemelson-MIT Invention Index (2011) Survey reveals potential innovation gap in the U.S.: Young women possess characteristics of inventors, but do not see themselves as inventive. Retrieved from: http://news.mit.edu/2011/lemelson-invention-index
	Manno, M. (2012) STEM initiatives in Florida. Retrieved from
	Maryland State Department of Education (2012) Maryland Stem. Baltimore, MD
2	Maxwell, J. (2013) Qualitative research design: An interactive approach. Los Angeles, CA: Sage Publishing,
1	Merriam, S. (2009) Qualitative research: A guide to design and implementations. San Francisco: Jossey-Bass
	Miles, M.B., Huberman, M.A. (1994) Qualitative data analysis: An expanded source-book. Beverly Hills, CA: Sage, 2nd ed.; https: //goo. gl/CTfAaq
	National Research Council (2011) Successful K-12 STEM education: Identifying effective approaches in science, technology, engineering, and mathema. Washington, DC: NAP,
	National Science Board, National Science Foundation (2003) The Science and Engineering Work-force. Realizing Americas Potential. NSB 0369; Retrieved from https://www.nsf.gov/nsb/ documents/2003/nsb0369/nsb0369.pdf
	National Science Foundation (2010) Integrated postsecondary education data system completions survey. Retrieved from https://caspar.nsf.gov
	Organisation for Economic Cooperation and Development (OECD) (2006) Assessing scientific, reading and mathematical literacy. Paris
	Petit, S. (2012) Maryland moves ahead with STEM initatives. The Baltimore Sun, Retrieved from http://www.baltimoresun.com/ph-ll-cns-stem-20121205-story.html
	Rowan-Kenyon, H.T., Swan, A.K., Creager, M.F. (2012) Social Cognitive Factors, Support, and Engagement: Early Adolescents’ Math Interests as Precursors to Choice of Career. Career Development Quarterly, 60(1): 2-15
	STEM Smart (2014) STEM smart brief. Improving STEM curriculum and instruction: Engaging students and raising standards. Retrieved from
	Vygotsky, L., Kozulin, A. (2011) The dynamics of the schoolchilds mental development in relation to teaching and learning. Journal of Cognitive Education and Psychology, 10(2); 198-211

O članku

jezik rada: engleski
vrsta rada: originalan članak
DOI: 10.5937/IJCRSEE1701007P
objavljen u SCIndeksu: 29.06.2017.

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