Rezky Agung Herutomo(1*), Masrianingsih _(2)

(1) Universitas Lakidende Unaaha
(*) Corresponding Author


This study aims to determine the effectiveness of flipped classroom learning with a realistic mathematics approach to promote students' mathematical literacy. This research was a quasi-experimental study using posttest only non-equivalent control group design. The population of this research was all students of 10th grade in one of public senior higher school in Kendari, Indonesia. Two classes were chosen by purposive sampling as the samples of this study that is X-MIPA 1 as the experimental class and X-MIPA 2 as the control class. The instruments used in this study were a mathematical literacy test. The results of this study show that the flipped classroom learning with a realistic mathematics approach is effective to promote the achievement of students' mathematical literacy.


flipped classroom; realistic mathematics; mathematical literacy

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Bergmann, J. & Sams, A. (2012). Flip your classroom: reach every student in every class every day. Washington DC: International Society for Technology in Education.

Bhagat, K. K., Chang, C. N., & Chang, C. Y. (2016). The impact of the flipped classroom on mathematics concept learning in high school. Educational Technology & Society, 19(3), 124–132.

Clark, K. R. (2015). The effects of the flipped model of instruction on student engagement and performance in the secondary mathematics classroom. Journal of Educators Online, 12(1), 91-115.

Cobb, P., Zhao, Q., & Visnovska, J. (2008). Learning from and adapting the theory of realistic mathematics education. Education et didactique, 2(1), 105–124.

Creswell, J. W. (2012). Educational research: planning, conducting, and evaluating quantitative and qualitative research (4th ed.). Pearson Education, Inc.

Fabian, K., Esperanza, P., & Toto, C. (2016). Flipped classroom model: effects on performance, attitudes and perceptions in High School Algebra. In K. Verbert, M. Sharples, & T. Klobucar (Eds.), Adaptive and adaptable learning: lecture notes in computer science (Vol. 9891, pp. 85-97). Springer-Verlag.

Fedistia, R. & Musdi, E. (2020). Efektivitas perangkat pembelajaran berbasis flipped classroom untuk meningkatkan kemampuan penalaran matematis peserta didik. Jurnal Didaktik Matematika, 7(1), 45-59.

Fernández-Martín, F., Romero-Rodríguez, J., Gómez-García, G., & Navas-Parejo, M. R. (2020). Impact of the flipped classroom method in the mathematical area: a systematic review. Mathematics, 8(2162), 1-11.

Fredriksen, H. (2020). Exploring realistic mathematics education in a flipped classroom context at the tertiary level. International Journal of Science and Mathematics Education.

Herutomo, R. A., Hajeniati, N. & Mustari, F. (2020). Model problem-based learning berpendekatan matematika realistik untuk mendukung literasi matematis siswa. Jurnal Pendidikan Matematika, 11(1), 25-38.

Hung, C. Y., Sun, J. C. Y., & Liu, J. Y. (2019). Effects of flipped classrooms integrated with MOOCs and game-based learning on the learning motivation and outcomes of students from different backgrounds. Interactive Learning Environments, 27(8), 1028-1046.

Hwang, G.-J., Yin, C., & Chu, H.-C. (2019). The era of flipped learning: promoting active learning and higher order thinking with innovative flipped learning strategies and supporting systems. Interactive Learning Environments, 27(8), 991–994.

Kim, S. H., Park, N. H., & Joo, K. H. (2014). Effects of flipped classroom based on smart learning on self-directed and collaborative learning. International Journal of Control and Automation, 7(12), 69-80.

Lai, C.-L., & Hwang, G.-J. (2016). A self-regulated flipped classroom approach to improving students’ learning performance in a mathematics course. Computers & Education, 100, 126–140.

Love, B., Hodge, A., Grandgennet, N., & Swift, A.W. (2014). Student learning and perceptions in a flipped linear algebra course. International Journal of Mathematic Education in Science and Tecnology, 45(3), 317-324.

OECD. (2013). PISA 2012 Assessment and analytical framework PISA 2012. OECD Publishing.

Scott, C. E., Green, L. E., & Etheridge, D. L. (2016). A comparison between flipped and lecture-based instruction in the calculus classroom. Journal of Applied Research in Higher Education, 8(2), 252–264.

Thomson, S. Hillman, K., & Bortoli, L. D. (2013). A teacher’s guide to PISA mathematical literacy. Australian Council for Educational Research Ltd.

Ulya, M. R. Isnarto, Rochmad, & Wardono, 2019. Efektivitas pembelajaran flipped classroom dengan pendekatan matematika realistik indonesia terhadap kemampuan representasi ditinjau dari self-efficacy. PRISMA Prosiding Seminar Nasional Matematika 2, 116-123

van den Heuvel-Panhuizen, M. & Drijvers, P. (2014). Realistic mathematics education. In S. Lerman (Ed.), Encyclopedia of mathematics education. Springer Science+Business Media Dordrecht.

Van Vliet, E. A., Winnips, J. C., & Brouwer, N. (2015). Flipped-Class pedagogy enhances student metacognition and collaborative-learning strategies in higher education but effect does not persist. CBE—Life Sciences Education, 14(3), ar26.

Wedege, T. (2010). Ethnomathematics and mathematical literacy: People knowing mathematics in society. In C. Bergsten; E. Jablonka & Tine Wedege (Eds.), Mathematics and mathematics education: Cultural and social dimensions. Proceedings of MADIF 7. The Seventh Mathematics Education Research Seminar. Stockholm, 26-27 January, 2010 (31-46). Linköping Universitet.

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Jurnal Karya Pendidikan Matematika | P-ISSN: 2339-2444 E-ISSN: 2549-8401