Discovery-based approach combined with active learning to improve student learning experiences for STEM students
DOI:
https://doi.org/10.58557/(ijeh).v3i4.163Kata Kunci:
Discovery-Based Learning, Pro-Con Grids, STEM, Construction Management, Problem SolvingAbstrak
A combination of discovery-based learning (as a novel instructional approach) and Pro-Con Grids (as an active learning activity) is used to improve long-term retention among STEM students. Students in a required Construction Management course were provided with a course lecture prior to in-class sessions. A quiz was used for each lecture to gain insight into students’ understanding and to evaluate the effectiveness of the learning method. During the in-class sessions, a blank sheet of paper was handed out to students to make a list of the pros and cons/advantages and disadvantages of the topics covered in the lecture. Once the pro-con grid was complete, the students were directed to share their documents with the instructor. This was followed by a summary of key concepts and then a review of the correct answers. Data was collected for this study in two forms; through a student survey and grades. The results showed that discovery-based learning could convince students to find and use information rather than memorizing and repeating concepts and facilitate effective group work. In addition, the grade comparisons for three semesters indicated that the higher the use of discovery learning during the course the higher the course grades were found to be
Referensi
Acar, O. A., and Tuncdogan, A. (2019). "Using the inquiry-based learning approach to enhance student innovativeness: a conceptual model." Teaching in Higher Education, 24(7), 895-909
Anazifa, R. D., and Djukri, D. (2017). "Project-based learning and problem-based learning: Are they effective to improve student’s thinking skills?" Jurnal Pendidikan IPA Indonesia, 6(2), 346-355
Aquines Gutiérrez, O., Galloway, R. K., Santos, A., Martínez-Huerta, H., and González, H. (2022). "Assisted Discovery Based Learning of the Electric Force with Scaffolding for Novice Students." Education Sciences, 12(4), 269
Aquines Gutiérrez, O., Galloway, R. K., Santos, A., Martínez-Huerta, H., & González, H. (2022). Assisted Discovery Based Learning of the Electric Force with Scaffolding for Novice Students. Education Sciences, 12(4), 269.
Betz, A. R., King, B., Grauer, B., Montelone, B., Wiley, Z., and Thurston, L. (2021). "Improving Academic Self-Concept and STEM Identity Through a Research Immersion: Pathways to STEM Summer Program." Frontiers in Education, 6, 10.3389/feduc.2021.674817.
Biggs, J., and Tang, C. (2011). Teaching for quality learning at university, McGraw-hill education (UK).
Deák, C., Kumar, B., Szabó, I., Nagy, G., and Szentesi, S. (2021). "Evolution of new approaches in pedagogy and STEM with inquiry-based learning and post-pandemic scenarios." Education Sciences, 11(7), 319
Dorier, J.-L., and García, F. J. (2013). "Challenges and opportunities for the implementation of inquiry-based learning in day-to-day teaching." ZDM, 45(6), 837-849, 10.1007/s11858-013-0512-8.
Gasiewski, J. A., Eagan, M. K., Garcia, G. A., Hurtado, S., and Chang, M. J. (2012). "From gatekeeping to engagement: A multicontextual, mixed method study of student academic engagement in introductory STEM courses." Research in higher education, 53(2), 229-261
Gunderson, D. E., and Moore, J. D. (2008). "Group learning pedagogy and group selection." International Journal of Construction Education and Research, 4(1), 34-45
Herdiana, Y., Wahyudin, and Sispiyati, R. (2017). "Effectiveness of discovery learning model on mathematical problem solving." AIP Conference Proceedings, 1868(1), 050028, 10.1063/1.4995155.
Hurst, C. (2015). "Thinking big about mathematics, science, and technology: Effective teaching STEMs from big ideas." International Journal of Innovation in Science and Mathematics Education, 23(3), 11-21
Jambunathan, S., Jayaraman, J., Jayaraman, A., and Jayaraman, K. (2021). "Is peer-led discovery based learning effective in promoting leadership skills among middle school children? Evidence from India." Education 3-13, 49(4), 422-432
Jensen, J. L., McDaniel, M. A., Woodard, S. M., and Kummer, T. A. (2014). "Teaching to the test… or testing to teach: Exams requiring higher order thinking skills encourage greater conceptual understanding." Educational Psychology Review, 26(2), 307-329, https://doi.org/10.1007/s10648-013-9248-9.
Lai, C.-S. (2018). "Using inquiry-based strategies for enhancing students’ STEM education learning." Journal of Education in Science Environment and Health, 4(1), 110-117
Lechelt, S. Z. (2020). "Introducing the Internet of Things in classrooms through discovery-based learning and physical computing." PhD, UCL (University College London).
NASEM (2022). Imagining the Future of Undergraduate STEM Education: Proceedings of a Virtual Symposium, The National Academies Press, Washington, DC.
Pearson, M., Striker, R., Swartz, E. M., Vazquez, E. A., Singelmann, L., and Ng, S. S. (2021) "Innovation-based learning: A new way to educate innovation." Proc., 2021 ASEE Virtual Annual Conference Content Access, Paper ID #33496
Pedaste, M., Mäeots, M., Siiman, L. A., De Jong, T., Van Riesen, S. A., Kamp, E. T., Manoli, C. C., Zacharia, Z. C., and Tsourlidaki, E. (2015). "Phases of inquiry-based learning: Definitions and the inquiry cycle." Educational research review, 14, 47-61
Purmawanti, D. E., Azizah, U., and Cahyaningrum, S. E. (2019) "The Effectiveness of Guided Discovery Based Learning Materials to Increase Students’ Learning Outcomes." Proc., National Seminar on Chemistry 2019 (SNK-19), Atlantis Press, 227-231
Purwaningsih, E., Sari, S., Sari, A., and Suryadi, A. (2020). "The Effect of STEM-PjBL and Discovery Learning on Improving Students' Problem-Solving Skills of Impulse and Momentum Topic." Jurnal Pendidikan IPA Indonesia, 9(4), 465-476
Thibaut, L., Ceuppens, S., De Loof, H., De Meester, J., Goovaerts, L., Struyf, A., Boeve-de Pauw, J., Dehaene, W., Deprez, J., and De Cock, M. (2018). "Integrated STEM education: A systematic review of instructional practices in secondary education." European Journal of STEM Education, 3(1), 2
Torres, A. S., Sriraman, V., and Ortiz, A. M. (2019). "Implementing project based learning pedagogy in concrete industry project management." International Journal of Construction Education and Research, 15(1), 62-79, https://doi.org/10.1080/15578771.2017.1393475.
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