Critical thinking skills are important in the context of 21st-century learning, where students are able to express reasons that support the assumptions or conclusions they obtain. A preliminary study at 25 Bandar Lampung Middle Schools found that science learning had not been maximized in training critical thinking skills. This study aims to determine the effect of applying the Argument-Driven Inquiry (ADI) learning model on students' critical thinking skills based on differences in academic abilities, gender, and personality type. This study used Nonequivalent (Pretest and Posttest) Control Group Design and One-Group Pretest-Posttest Design. The data of pretest and posttest essay questions results analyzed using nonparametric statistical tests. The results showed that there was an effect of ADI learning on critical thinking skills in high and low academic students. Moreover, this model provided a greater influence on students' high academic abilities. The ADI model could also accommodate all male and female students with various types of personality types because the gender and personality type aspects do not show significant differences in students' critical thinking abilities, both between male and female students and students with different personality types. Overall, the ADI model is effective in improving students' critical thinking skills.

argument-driven inquiry; gender; academic ability; critical thinking skills; personality type

Amin, A. M., & Corebima, A. D. (2016). Analisis persepsi dosen terhadap strategi pembelajaran Reading Questiong and Answering (RQA) dan Argument Driven Inquiry (ADI) pada Program Studi Pendidikan Biologi di Kota Makassar. Paper presented in Seminar Nasional II (pp. 333–347).

Atamimi, N. (2014). Perbedaan peran jenis kelamin, skala akademik, dan peran aktif berorganisasi dengan prestasi akademik. Cakrawala Pendidikan, 33(2), 236-244. doi:10.21831/cp.v2i2.2163.

Aunurrahman, A. (2012). Belajar dan pembelajaran. Bandung: Alfabeta.

Calaguas, G. M. (2012). Academic achievement and school ability: Implications to guidance and counseling programs. Researchers World: Journal of Arts, Science & Commerce, 3(2), 49-55.

Demircioglu, T., & Ucar, S. (2015). Investigating the effect of argument-driven inquiry in laboratory instruction. Educational Science: Theory & Practice, 15(1), 267-283. doi:10.12738/estp.2015.1.2324.

Dwiretno, G., & Setyarsih, W. (2018). Pembelajaran fisika menggunakan model Argument Driven Inquiry (ADI) untuk melatihkan kemampuan argumentasi ilmiah peserta didik. Inovasi Pendidikan Fisika (IPF), 07(02), 337–340.

Ennis, R. (2011). Critical thinking: Reflection and perspective Part II. Inquiry: Critical thinking across the Disciplines, 26(2), 5-19. doi:10.5840/inquiryctnews201126215.

Facione, P. A. (2010). Critical thinking: What it is and why it counts. Insight assessment, 1-28.

Fatmawati, Z. A., Susilowati, S. M. E., & Iswari, R. S. (2019). Effect of Argument Driven Inquiry (ADI) with problem solving method for student’s argumentation and critical thinking skills. Journal of Innovative Science Education, 8(1), 500-508. doi:10.15294/jise.v0i0.21668.

Froiland, J. M., & Worrell, F. C. (2016). Intrinsic motivation, learning goals, engagement, and achievement in a diverse high school. Psychology in the Schools, 53(3), 321-336. doi:10.1002/pits.21901.

Gibson, C. (1995). Critical thinking: Implications for instruction. Reference Quarterly, 35(1), 27-35.

Ginanjar, W. S. (2015). Penerapan model argument-driven inquiry dalam Pembelajaran IPA untuk meningkatkan kemampuan argumentasi ilmiah siswa SMP. Jurnal Pengajaran MIPA, 20(1), 32-37. doi:10.18269/jpmipa.v20i1.559.

Greenwald, R. R., & Quitadamo, I. J. (2014). A mind of their own: Using inquiry-based teaching to build critical thinking skills and intellectual engagement in an undergraduate neuroanatomy course. Journal of Undergraduate Neuroscience Education, 12(2), A100-A106.

Hadisi, L. (2014). Inkuiri: Sebuah strategi menuju pembelajaran bermakna. Al-Ta’dib, 7(2), 85-98. doi:10.31332/atdb.v7i2.319.

Halder, S., Roy, A., & Chakraborty, P. K. (2017). The influence of personality traits on information seeking behaviour of students. Malaysian Journal of Library & Information Science, 15(1), 41-53.

Hasnunidah, N., Susilo, H., Irawati, M. H., & Sutomo, H. (2015). Argument-driven inquiry with scaffolding as the development strategies of argumentation and critical thinking skills of students in Lampung, Indonesia. American Journal of Educational Research, 3(9), 1185-1192. doi:10.12691/education-3-9-20.

Hidayat, W. (2017). Adversity quotient dan penalaran kreatif matematis siswa SMA dalam pembelajaran argument driven inquiry pada materi turunan fungsi. Jurnal Pendidikan Matematika Kalamatika, 2(1), 15-28. doi:10.29071/kalamatika.v2i1.50.

Howard, L. W., Tang, T. L. P., & Austin, M. J. (2015). Teaching critical thinking skills: Ability, motivation, intervention, and the Pygmalion effect. Journal of Business Ethics, 128(1), 133-147. doi:10.1007/s10551-014-2084-0.

Kadayifci, H., Atasoy, B., & Akkus, H. (2012). The correlation between the flaws students define in an argument and their creative and critical thinking abilities. Procedia - Social and Behavioral Sciences, 47(2012), 802-806. doi:10.1016/j.sbspro.2012.06.738.

Kirmizi, F. S., Saygi, C., & Yurdakal, I. H. (2015). Determine the relationship between the disposition of critical thinking and the perception about problem solving skills. Procedia - Social and Behavioral Sciences, 191(June), 657-661. doi:10.1016/j.sbspro.2015.04.719

Kurniasari, I. S., & Setyarsih, W. (2017). Penerapan model pembelajaran Argument Driven Inquiry ( ADI ) untuk melatihkan kemampuan argumentasi ilmiah siswa pada materi usaha dan energi. Jurnal Inovasi Pendidikan Fisika (JIPF), 06(03), 171-174.

Kwan, Y. W., & Wong, A. F. (2015). Effects of the constructivist learning environment on students’ critical thinking ability: Cognitive and motivational variables as mediators. International Journal of Educational Research, 70(2015), 68-79. doi:10.1016/j.ijer.2015.02.006.

Lowenthal, P. R., Muth, R., & Provenzo, E. F. (2009). Constructivism: Encyclopedia of the social and cultural foundations of education (Vol. 1). Thousand Oaks, CA: Sage Publications Inc.

Marhamah, O. S., Nurlaelah, I., & Setiawati, I. (2017). Penerapan Model Argument-Driven Inquiry (ADI) dalam meningkatkan kemampuan berargumentasi siswa pada konsep pencemaran lingkungan di kelas X SMA Negeri 1 Ciawigebang. Quagga: Jurnal Pendidikan dan Biologi, 9(02), 45-52. doi:10.25134/quagga.v9i02.747.

OECD. (2018). PISA 2015: Results in focus. Retrieved from https://www.oecd.org/.

Rajagukguk, W., & Simanjuntak, E. (2015). Problem-based mathematics teaching kits integrated with ICT to improve students’critical thinking ability in junior high schools in Medan. Jurnal Cakrawala Pendidikan, 36(3), 347-356. doi:10.21831/cp.v3i3.7342.

Ramos, A., & Verschueren, K. (2019). School careers of high ability students in Flanders. Retrieved from https://lirias.kuleuven.be/retrieve/538960.

Riandi, Y. A. (2015). Peningkatan penguasaan konsep siswa melalui pembelajaran argument driven inquiry pada pebelajaran IPA Terpadu di SMP kelas VII. EduSains, 7(2), 114-120. doi:10.15408/es.v7i2.1578.

Ricketts, J. C., & Rudd, R. (2004). Critical thinking skills of FFA leaders John C. Ricketts, University of Georgia Rick Rudd, University of Florida. Journal of Southern Agricultural Education Research, 54(1), 7-20.

Saido, G. M., Siraj, S., Nordin, A. B. B., & Al_Amedy, O. S. (2018). Higher order thinking skills among secondary school students in science learning. MOJES: Malaysian Online Journal of Educational Sciences, 3(3), 13-20.

Sampson, V., Enderle, P., Grooms, J., & Southerland, S. A. (2012). Using laboratory activities that emphasize argumentation and argument to help high school students learn how to engage in scientific inquiry and understand the nature of scientific inquiry. Paper presented at The Annual International Conference of the National Association for Research in Science Teaching (NARST) Indianapolis, ID (p. 11).

Sampson, V., & Gleim, L. (2009). Argument-driven inquiry to promote the understanding of important concepts & practices in biology. The American biology teacher, 71(8), 465-473. doi:10.1662/005.071.0805.

Sampson, V., Grooms, J., & Walker, J. P. (2010). Argument-Driven Inquiry as a way to help students learn how to participate in scientific argumentation and craft written arguments: An exploratory study. Science Education, 95(2), 217–257. doi:10.1002/sce.20421.

Sudarsana, I. K. (2018). Optimalisasi penggunaan teknologi dalam implementasi kurikulum di sekolah (Persepektif teori konstruktivisme). Cetta: Jurnal Ilmu Pendidikan, 1(1), 8-15.

Sukmawati, I., Ramadani, S. D., Fauzi, A., & Corebima, A. D. (2015). Perbedaan pemberdayaan retensi antara siswa SMA akademik rendah dan tinggi melalui pembelajaran cooperative script dalam pembelajaran biologi. In Proceedings of the 2nd Seminar & Workshop Nasional Biologi, IPA, dan Pembelajarannya FMIPA UM (pp. 662-667).

Sulistiana, S., Sriyono, S., & Nurhidayati. (2013). Pengaruh gender, gaya belajar, dan reinforcement guru terhadap prestasi belajar fisika siswa kelas XI SMA Negeri se-Kabupaten Purworejo tahun pelajaran 2012/2013. Radiasi, 3(2), 102-106.

Sulistiyawati, S., & Andriani, C. (2017). Kemampuan berpikir kritis dan hasil belajar biologi berdasarkan perbedaan gender siswa. WACANA AKADEMIKA: Majalah Ilmiah Kependidikan, 1(2), 127-142. doi:10.30738/wa.v1i2.1289.

Sugihartono, F. K., Harahap, F., Setiawati, F. A., & Nurhayati, S. (2007). Psikologi Pendidikan. Yogyakarta: UNY Press.

Sunarto, M. D., Budayasa, I. K., & Juniati, D. (2017). Profil proses berpikir mahasiswa tipe kepribadian sensing dalam pemecahan masalah logika matematika. Cakrawala Pendidikan, 36(2), 299-308. doi:10.21831/cp.v36i2.13119.

Van der Stel, M., & Veenman, M. V. (2008). Relation between intellectual ability and metacognitive skillfulness as predictors of learning performance of young students performing tasks in different domains. Learning and Individual Differences, 18(1), 128-134. doi:10.1016/j.lindif.2007.08.003.

Yahaya, A. (2003). Factors contributing towards excellence academic performance. Journal of Science & Mathematics Education, 1-11. Retrieved from https://core.ac.uk/.

Zohar, A., & Dori, Y. J. (2003). Higher order thinking skills and low-achieving students: Are they mutually exclusive? The journal of the learning sciences, 12(2), 145-181. doi:10.1207/S15327809JLS1202_1.