The Importance of Representing STEM Professional Role Models Through Multimedia Instructions
Abstract
The first part of this paper discusses that STEM education does not have clearly defined fields, unlike discipline-based educational programs such as science education, which do have clearly defined areas. In order to overcome the complexity and ambiguity of different STEM and STEM education perspectives, it is necessary to understand the status and trajectory of STEM education research. Also, the authors suggest that stereotypes about STEM professionals can be minimized by using several faces associated with learners, as role models in presenting information about the career options available to STEM professionals in order to reduce stereotypes. As learners learn STEM, they can recognize their potential and their sense of self as well as their STEM connections. Additionally, by exposing students to various professions through multimedia learning, the distance between role models and learners may be closed, thus appealing to their interests and encouraging them to pursue careers that they are interested in the future.
Keywords: STEM, professional role models, multimedia instructions
References
[1] Tamba RM, Chiang CL. “Gender disparity in north Sumatera higher education and challenges of young Indonesian women in science and STEM education.,” In: International Joint Conference on Science and Engineering 2021 (IJCSE 2021. pp. 635–641. Atlantis Press (2021).
[2] Williams JC. “The 5 biases pushing women out of STEM.,” Harvard Business Review. vol. 24, no. March, p. 2015.
[3] Cherchiglia LL. The creation of STEM role models: An exploratory study on the design of mentoring characters for a STEM gaming website. Michigan State University; 2019.
[4] Victoria SG. STEM education in Victoria. Victorian Government; 2022.
[5] N.C. NCES. Trends in International Mathematics and Science Study. TIMSS; 2019.
[6] Lynch SJ, Peters-Burton E, Ford M. Building STEM opportunities for all. Educ Leadersh. 2015;72(4):54–60.
[7] Zia LL. The NSF national science, mathematics, engineering, and technology education digital library program. Commun ACM. 2001;44(5):83.
[8] Sanders M. Integrative STEM education: primer. Technol Teach. 2009;68(4):20–6.
[9] Gonzalez HB, Kuenzi JJ. Science, Technology, Engineering, and Mathematics (STEM) education: A primer. Washington (DC): Congressional Research Service, Library ofCongress; 2012.
[10] U.S.B. Labor Statistics, “Employment in STEM occupations,” (2021).
[11] U.K. “Commission for Employment and Skills,” (2015).
[12] Karaca M, Bektas O. The relationship between perceived role models and selfregulation in science. Int J Educ Res. 2021;110:101884.
[13] Guenaga M, Eguíluz A, Garaizar P, Mimenza A. “The impact of female role models leading a group mentoring program to promote STEM vocations among young girls.,” Sustainability. vol. 14, no. 3, p. 2022. https://doi.org/10.3390/su14031420.
[14] Moon J, Singer SR. Bringing STEM into focus. Educ Week. 2012;31(19):32.
[15] Bandura A. Human agency in social cognitive theory. Am Psychol. 1989 Sep;44(9):1175–84.
[16] Bandura A, Locke EA. Negative self-efficacy and goal effects revisited. J Appl Psychol. 2003 Feb;88(1):87–99.
[17] Martin AJ, Marsh HW. Academic resilience and its psychological and educational correlates: A construct validity approach. Psychol Sch. 2006;43(3):267–81.
[18] Grohman MG, Ivcevic Z, Silvia P, Kaufman SB. The role of passion and persistence in creativity. Psychol Aesthet Creat Arts. 2017;11(4):376–85.
[19] Bandura A. An agentic perspective on positive psychology the science of human flourishing. New York: Ed. Praege; 2007.
[20] Martin V. Leading change in health and social care. Routledge; 2020.
[21] Mayer RE. Using multimedia for e-learning. J Comput Assist Learn. 2017;33(5):403– 23.
[22] Gladstone JR, Cimpian A. Which role models are effective for which students? A systematic review and four recommendations for maximizing the effectiveness of role models in STEM. Int J STEM Educ. 2021;8(1):59.