The Oe3r strategy is an effort to develop a learning model based on inquiry. Oe3r strategy consists of orientation, exploration, explanation, elaboration, and reflection. This study aims to describe the implementation of the Oe3r strategy on the chapter redox reaction and obtain student responses on it. The research used a quantitative descriptive method. Implementation description is derived from observations on the learning process, while student responses are obtained by capturing responses through questionnaires. The implementation of the Oe3r strategy was carried out in High school students with 35 students. The results of this research indicate that students give good to respond, felling meaningful on the learning process and expect the Oe3r strategy can be applied in other chapters.

Abdullah, M. Y., Bakar, N. R. A., & Mahbob, M. H. (2012). Student’s participation in classroom: What motivates them to speak up? Procedia-Social and Behavioral Sciences, 51, 516–522.

Ambrose, S. A., Bridges, M. W., DiPietro, M., Lovett, M. C., & Norman, M. K. (2010). How learning works: Seven research-based principles for smart teaching. John Wiley & Sons.

Clegg, S., Tan, J., & Saeidi, S. (2002). Reflecting or acting? Reflective practice and continuing professional development in higher education. Reflective Practice, 3(1), 131–146.

Dolmans, D. H., De Grave, W., Wolfhagen, I. H., & Van Der Vleuten, C. P. (2005). Problem‐based learning: Future challenges for educational practice and research. Medical Education, 39(7), 732–741.

Enger, S. K., & Yager, R. E. (2009). Assessing student understanding in science: A standards-based K-12 handbook. Corwin Press.

Gull, F., & Shehzad, S. (2015). Effects of cooperative learning on students’ academic achievement. Journal of Education and Learning, 9(3), 246–255.

Hailikari, T., Katajavuori, N., & Lindblom-Ylanne, S. (2008). The relevance of prior knowledge in learning and instructional design. American Journal of Pharmaceutical Education, 72(5).

Hanson, D. M. (2006). Instructor’s guide to process-oriented guided-inquiry learning. Citeseer.

Johnstone, A. H. (1991). Why is science difficult to learn? Things are seldom what they seem. Journal of Computer Assisted Learning, 7(2), 75–83.

Melihan, U., & Sirri, A. (2011). The effect of cooperative learning method on the students’ success and recall levels of the 8th grade students learning in permutation and probability subject. Journal of Kirsehir Education Faculty, 12, 1–16.

Pedaste, M., Mäeots, M., Siiman, L. A., De Jong, T., Van Riesen, S. A., Kamp, E. T., & Tsourlidaki, E. (2015). Phases of inquiry-based learning: Definitions and the inquiry cycle. Educational Research Review, 14, 47–61.

Schoffstall, A. M., & Gaddis, B. A. (2007). Incorporating guided-inquiry learning into the organic chemistry laboratory. Journal of Chemical Education, 84(5), 848.

Sotiriou, S., & Bogner, F, X. (2015). A 2200-year old inquiry-based, hands-on experiment in today’s science classrooms. World Journal of Education, 5(2), 52–62.

Sutrisno, S., Nanda, G. A. M., & Widarti, H. R. (2020). The effectiveness of inquiry based learning with Oe3r strategy for conceptual understanding of molecular shape of high school students’. AIP Conference Proceedings, 2215(1), 20025.

Thibaut, J. W. (2017). The social psychology of groups. Routledge.

Thorpe, K. (2004). Reflective learning journals: From concept to practice. Reflective Practice, 5(3), 327–343.

Trout, A. L., Hagaman, J., Casey, K., Reid, R., & Epstein, M. H. (2008). The academic status of children and youth in out-of-home care: A review of the literature. Children and Youth Services Review, 30(9), 979–994.

User, U. M. (2010). Menjadi guru profesional. Remaja rosdakarya.

Wang, J. J., Rodríguez Núñez, J. R., Maxwell, E. J., & Algar, W. R. (2016). Build your own photometer: A guided-inquiry experiment to introduce analytical instrumentation. Journal of Chemical Education, 93(1), 166–171.

Weller, M., van Ameijde, J., & Cross, S. (2018). Learning design for student retention. Journal of Perspectives in Applied Academic Practice, 6(2).

Wenning, C. J. (2005). Levels of inquiry: Hierarchies of pedagogical practices and inquiry processes. J. Phys. Tchr. Educ, 2(3), 3–12.