A Study of Fluid Convective Flow in a Room: A Research-Based Learning on Heat Transfer Topics

Gunarjo Suryanto Budi, Theo Jhoni Hartanto, Fenno Farcis, Umi Amanda Putri, Kristanoval Siloam

Abstract


Abstract: This study is motivated by the importance of developing learning patterns that emphasize the formation and understanding of students through active learning. One form of learning that can support this goal is research-based learning. Research-based learning promotes student-centeredness and integrates research into a meaningful learning process. In this work, the students are actively involved in real research related to fluid convective flow topics. This research aims to describe the impact of research-based learning on students' understanding of convective fluid flow topics. A pre-experimental research method with a one-group pre-test and post-test design was used. Participants were taken from students in the Physics Education Study Program at the University of Palangka Raya taking thermodynamics courses. The number of participants was 20 students. The test instrument is in the form of essay questions consisting of five questions related to fluid convective flow material. The finding indicates that prospective teacher students' understanding was significantly increased with a high category (N-Gain score of 0.74). Based on this study, research-based learning activities could be considered an alternative to conducting meaningful learning activities, especially in fluid convective flow topics.

 

Keywords: fluid flow, physics learning, research-based learning.



DOI: http://dx.doi.org/10.23960/jpmipa/v25i1.pp53-65

Full Text:

PDF

References


Aliligay, M. D. S., Rendon, J. D. L., Villarias, C. J. R., & Mercado, J. C. (2022). Strategies in learning fluid mechanics: a literature review. International Journal of Multidisciplinary: Applied Business and Education Research, 3(8), 1556-1563.

Brew, A., & Saunders, C. Making sense of research-based learning in teacher education. Teaching and Teacher Education, 87, 102935.

Camacho Rivadeneira, M. H., Valcke, M., & Chiluiza Garcia, K. The effect of “research based learning activities” on students’ intention to do research in graduate courses. In L. Chova, A. Martinez, & I. Torres (Eds.), 9th international conference on education and new learning technologies (edulearn17,) 6571–6579.

Cirenza, C. F., Diller, T. E., & Williams, C. B. Hands-on workshops to assist in students' conceptual understanding of heat transfer. Journal of Heat Transfer, 140(9), 092001.

Daryanes, F., & Sayuti, I. Research-based learning in biology courses to train students critical thinking skills: Student’s perception. Biosfer: Jurnal Pendidikan Biologi, 16(1), 124-137.

Dobber, M., Zwart, R., Tanis, M., & van Oers, B. Literature review: The role of the teacher in inquiry-based education. Educational Research Review, 22, 194-214.

Duit, R., & Treagust, D. F. Conceptual change: A powerful framework for improving science teaching and learning. International journal of science education, 25(6), 671-688.

Estuhono, Festiyed, & Bentri, A. Preliminary research of developing a research-based learning model integrated by scientific approach on physics learning in senior high school. In Journal of Physics: Conference Series (Vol. 1185, No. 1, p. 012041). IOP Publishing.

Gamez-Montero, P. J., Raush, G., Domenech, L., Castilla, R., Garcia-Vilchez, M., Moreno, H., & Carbo, A. Methodology for developing teaching activities and materials for use in fluid mechanics courses in undergraduate engineering programs. Journal of Technology and Science Education, 5(1), 15-30.

Hartanto, T. J. Pembelajaran ipa pada konsep kalor yang berorientasi doing science [science learning oriented to doing science on the concept of heat] Jurnal Fisika Indonesia, Vol 21, No 2, 12-19.

Hartanto, T.J., Dinata, P.A.C., Azizah, N., Qadariah, A., & Pratama, A. Students' science process skills and understanding on Ohm's law and direct current circuit through virtual laboratory based predict-observe-explain model. Jurnal Pendidikan Sains Indonesia (Indonesian Journal of Science Education), 11(1):113-128.

Hertzberg, J., Leppek, B. R., & Gray, K. E. Art for the sake of improving attitudes toward engineering. In 2012 ASEE Annual Conference & Exposition, San Antonio – Texas, 10.18260/1-2--20966.

Hidayatul, M., Tirta, I. M., Wangguway, Y., & Suni, D. M. O. (2020). The implementation of research based learning and the effect to the student metacognition thinking skills in solving H-irregularity problem. Journal of Physics: Conference Series (Vol. 1538, No. 1, p. 012113). IOP Publishing.

Hofstein, A., & Mamlok-Naaman, R. (2007). The laboratory in science education: the state of the art. Chemistry education research and practice, 8(2), 105-107.

Kenjereš, S., Gunarjo, S. B., & Hanjalić, K. Contribution to elliptic relaxation modelling of turbulent natural and mixed convection. International Journal of Heat and Fluid Flow, 26(4), 569-586.

Kudryashova, A., Gorbatova, T., Rybushkina, S., & Ivanova, E. Teacher’s roles to facilitate active learning. Mediterranean Journal of Social Sciences, 7(1), 460-466.

Lambert, C. (2009). Pedagogies of participation in higher education: a case for research‐based learning. Pedagogy, Culture & Society, 17(3), 295-309.

Misbah, M., Hamidah, I., Sriyati, S., & Samsudin, A. Research trend of dynamic fluid in learning: a bibliometric analysis. Jurnal Penelitian & Pengembangan Pendidikan Fisika, 9(2).

Musasia, A. M., Ocholla, A. A., & Sakwa, T. W. Physics practical work and its influence on students' academic achievement. Journal of Education and Practice, 7(28), 129-134.

Nantsou, T., Frache, G., Kapotis, E. C., Nistazakis, H. E., & Tombras, G. S. Learning-by-doing as an educational method of conducting experiments in electronic physics. In 2020 IEEE Global Engineering Education Conference (EDUCON), 236-241.

Narahaubun, S. S., Rehena, J. F., & Rumahlatu, D. (2020). Empowering students’ critical thinking skills, information literacy and cognitive learning outcome through RBL-TPS model. Jurnal Pendidikan Biologi Indonesia, 6(2), 243-256.

Nursofah, N., Komala, R., & Rusdi, R. The effect of research-based learning model and creative thinking ability on students learning outcomes. Indonesian Journal of Science and Education, 2(2), 107–112.

Phanphech, P., Tanitteerapan, T., & Murphy, E. Explaining and enacting for conceptual understanding in secondary school physics. Issues in Educational Research, 29(1), 180-204.

Pour, N. B., Thiessen, D. B., & Van Wie, B. J. Improving student understanding and motivation in learning heat transfer by visualizing thermal boundary layers. International Journal of Engineering Education, 34(2A), 514-526.

Priantari, I., Suratno, S., Wahyuni, D., & Dafiq, D. Stem Education and Research-Based Learning Activities on Taste Roasted in Coffee. M. Fadilah et al. (Eds.): IcoBioSE 2021, ABSR 32, pp. 500–511.

Putri, L. A., Permanasari, A., Winarno, N., & Ahmad, N. J. Enhancing students' scientific literacy using virtual lab activity with inquiry-based learning. Journal of Science Learning, 4(2), 173-184.

Ramahwati, S. Application of research–based learning (RBL) model with scientific approach in improving IPS learning in class V SDN 1 Sukomulyo academic year 2015/2016. Journal of Scholars/ Jurnal Kalam Cedikia, 4(1), 1–19.

Redish, E. F., & Steinberg, R. N. (1999). Teaching physics: Figuring out what works. Physics Today, 52(1), 24-30.

Scager, K., Boonstra, J., Peeters, T., Vulperhorst, J., & Wiegant, F. Collaborative learning in higher education: Evoking positive interdependence. CBE—Life Sciences Education, 15(4), ar69.

Siswaningsih, W., Firman, H., & Khoirunnisa, A. Development of two-tier diagnostic test pictorial-based for identifying high school students misconceptions on the mole concept. In Journal of Physics: conference series (Vol. 812, No. 1, p. 012117). IOP Publishing.

Srikoon, S., Bunterm, T., Samranjai, J., & Wattanathorn, J. Research synthesis of research-based learning for education in Thailand. Procedia-Social and Behavioral Sciences, 116, 913–917.

Sudaryono. Metodologi penelitian. Depok: PT Raja Grafindo Persada.

Sugiyono. Metodelogi Penelitian Kuantitatif dan Kualitatif dan R&D. Bandung: Alfabeta.

Susiani, T. S., Salimi, M., & Hidayah, R. Research-based learning (RBL): How to improve critical thinking skills? SHS Web of Conferences, 42, 1–6.

Suyatman, Saputro, S., Sunarno, W., & Sukarmin. The implementation of research-based learning model in the basic science concepts course in improving analytical thinking skills. European Journal of Educational Research, 10(3), 1051-1062.

Triyanta. Pembelajaran berbasis riset pada kuliah fisika dasar di itb sebagai sebuah contoh pendidikan stem. Proceedings of simposium nasional inovasi dan pembelajaran sains (SNIPS 2018), ITB Ganesha Bandung, 468-475.

Tungkasamit, A. (2019). The effect of using research-based learning model in history practicum in school course. Pedagogia: Jurnal Pendidikan, 8(1), 9-17.

Usmeldi, Amini, R., & Trisna, S. (2017). The development of research-based learning model with science, environment, technology, and society approaches to improve critical thinking of students. Jurnal Pendidikan IPA Indonesia, 6(2), 318–325.

Usmeldi, U. (2016). Pengembangan modul pembelajaran fisika berbasis riset dengan pendekatan scientific untuk meningkatkan literasi sains peserta didik. Jurnal Penelitian & Pengembangan Pendidikan Fisika, 2(1), 1-8.

Usmeldi. (2015). The effectiveness of physics based research in learning engineering physics. Indonesian Journal of Science Education, 4(1), 79-85.

Vaidya, A. (2021). Contributions to the teaching and learning of fluid mechanics. Fluids, 6(8), 269.

Van Boxtel, C., Van der Linden, J., & Kanselaar, G. (2000). Collaborative learning tasks and the elaboration of conceptual knowledge. Learning and instruction, 10(4), 311-330.

Visschers‐Pleijers, A. J., Dolmans, D. H., De Leng, B. A., Wolfhagen, I. H., & Van Der Vleuten, C. P. (2006). Analysis of verbal interactions in tutorial groups: a process study. Medical Education, 40(2), 129-137.

Walker, J. P., Van Duzor, A. G., & Lower, M. A. (2019). Facilitating argumentation in the laboratory: The challenges of claim change and justification by theory. Journal of Chemical Education, 96(3), 435-444.

Wingfield, S. S., & Black, G. S. (2005). Active versus passive course designs: The impact on student outcomes. Journal of Education for Business, 81(2), 119-123.

Xiao, G. (2019, August). A Study on the bridging strategy between the theory of fluid mechanics and engineering applications. In 2019 International Conference on Modeling, Simulation and Big Data Analysis (MSBDA 2019), 230-235.

Yanti, F. A., Kuswanto, H., & Rosa, F. O. (2019). Pre-service physics teachers’ research activities by research-based learning. Journal of Turkish Science Education, 16(1), 77-84.


Refbacks

  • There are currently no refbacks.


Copyright (c) 2024 Jurnal Pendidikan MIPA

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

View My Stats

Creative Commons License
The copyright is reserved to The Jurnal Pendidikan MIPA that is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.