STEM education in Malaysia is new and is outlined in the Malaysian Blueprint 2013-20125 as initiatives to increase STEM field participation. STEM initiatives is a continuous process starting from preschool until tertiary level to ensure participation in the STEM fields hence providing STEM workforce. Therefore, it is necessary for teachers to be equipped with knowledge and teaching approach for STEM education especially from primary school because this is the level where students needs to build foundation to science and build connection with the real life situation. This is to ensure that the mindset towards STEM fields can be cultivated and sown from early schooling level. Teachers of primary schools in Malaysia are still new in STEM education to understand let alone to apply the STEM pedagogical approach in schools. Thus, the responsibility of a primary teacher is to ensure interest in science is applied and maintained using an effective STEM pedagogical approach so that students are more incline to investigate and explore matters related to science. Thus, this paper will share experiences of how the teachers were implemented and the impact obtained by the teachers in preparation to implement STEM education in primary schools.
Keywords: STEM education, STEM pedagogical approach, training of trainers.
References:
[1] [Andersen, Lisbeth S., "Readiness for change : can readiness be primed?" (2008). Master's Theses. Paper 3517. San Jose State University.
[2] Amat, M. F. b. C. (2008). Kesan kaedah inkuiri koperatif berbantukan multimedia ke atas prestasi kemahiran proses sains bersepadu,pemikiran saintifik dan sikap dalam sains dalam kalangan pelajar-pelajar sekolah kebangsaan., Universiti Sains Malaysia.
[3] Anuar Zaini, M. Z., Low Wah Yun, Wong Yut Lin, Fatimah Harun, Lim Chin Theam, & Daniel, E. G. S., et al. (2003). Factors associated with child growth and school performance amongst primary school children. . Paper presented at the Paper presented at the CEDER Seminar held at the Asia-Europe Institute,University Malaya.
[4] Armenakis, A. A., Harris, S. G., & Mossholder, K. W. (1993). Creating readiness for organizational change. Human Relations, 46(6), 681-702.
[5] Armenakis, A. A. & Bedeian, A. G. (1999). Organizational change: a review of theory and research in the 1990s. Journal of Management, 25(3), 293-315
[6] Burghardt, M. D. (1999). Assessing elementary school design portfolios. The Technology Teacher, 59(2), 1-14.
[7] Garrison, R. H., Noreen, E. W., & Brewer, P. C. (2006). Managerial accounting (11thed.)- New York: McGraw-Hill/lrwin.
[8] Golanbari, M., & Garlikov, R. G. (2008). Employing Socratic pedagogy to improve engineering students' critical reasoning skills: Teaching by asking instead of by telling, American Society for Engineering Education (ASEE).
[10] Holt, D. T., Armenakis, A. A., Feild, H. S., & Harris, S. G. (2007). Readiness for organizational change: The systematic development of a scale. The Journal of Applied Behavioral Science, 43(2), 232-255.
[11] Metz, K. (1998). Scientific enquiry within reach of young children, in B. Fraser & K. Tobins (eds). International Handbook of Science Education. Greal Britian: Kluwer Academic, 81-96.
[13] Ong, E. T., & Mohd Hassan, B. H. (2013). Penguasaan Kemahiran Proses Sains Asas Dalam Kalangan Murid Sekolah Rendah Di Selangor Berdasarkan Jantina, Lokasi Sekolah dan Aras Tahun. Jurnal pendidikan Sains &Matematik Malaysia, 3(2).
[14] Osman, K. (2012). Primary Science: Knowing about the World through Science Process Skills. Asian Social Science, 8(16). doi:10.5539/ass.v8n16p1.
[15] Osman, K., Iksan, Z. J., & Halim, L. (2007). Sikap terhadap Sains dan Sikap Saintifik di kalangan Pelajar Sains. Jurnal Pendidikan, 32, 39-60.