The development of digital technology requires innovative teaching materials that are interactive, adaptive, and inclusive, particularly in mathematics learning, which is still dominated by conventional methods and results in low student achievement. This study aimed to develop a mathematics e-module based on Problem-Based Learning (PBL) with the integration of Universal Design for Learning (UDL) principles on ratio material for seventh-grade students. The research was conducted at SMP Negeri 1 Wonosari during the even semester of the 2024/2025 academic year using the research and development approach with the 4D model (define, design, develop, disseminate), involving experts for validation as well as teachers and students for trials. Data were collected through validation sheets, questionnaires, and learning achievement tests, and analyzed descriptively. The results showed that the developed e-module met the feasibility criteria with an average of 86.75% (Good category) and was rated very practical with a score of 88% by teachers and students. The limitation of this study lies in its narrow scope; therefore, further research is recommended to involve broader materials and diverse school contexts. This study confirms that the integration of PBL and UDL in e-modules can serve as an innovative alternative to support mathematics learning that is more interactive, contextual, and inclusive.

D. Mhlanga, “Digital transformation of education, the limitations and prospects of introducing the fourth industrial revolution asynchronous online learning in emerging markets,” Discov. Educ., vol. 3, no. 1, 2024, doi: 10.1007/s44217-024-00115-9.

O. Gun and M. J. Bossé, “Synthesizing cognitive mathematics learning taxonomies,” Think. Ski. Creat., vol. 57, no. October 2024, 2025, doi: 10.1016/j.tsc.2025.101796.

A. Mukuka, “Data on mathematics teacher educators’ proficiency and willingness to use technology: A structural equation modelling analysis,” Data Br., vol. 54, 2024, doi: 10.1016/j.dib.2024.110307.

D. E. Subroto, Supriandi, R. Wirawan, and A. Y. Rukmana, “Implementasi Teknologi dalam Pembelajaran di Era Digital: Tantangan dan Peluang bagi Dunia Pendidikan di Indonesia,” J. Pendidik. West Sci., vol. 1, no. 07, pp. 473–480, 2023, doi: 10.58812/jpdws.v1i07.542.

U. Umihani, M. Nurwahidin, P. Pujianti, and R. Riswandi, “Pengembangan Bahan Ajar Model Discovery Learning Menggunakan Media Digital di SMA N 1 Terbanggi Besar,” J. Teknol. Pendidik. J. Penelit. dan Pengemb. Pembelajaran, vol. 8, no. 1, p. 164, 2023, doi: 10.33394/jtp.v8i1.6433.

I. Napui, B. R. Takaendengan, K. A. Y. Pauweni, J. Matematika, F. Matematika, and P. Alam, “Deskripsi Kemampuan Berpikir Analitis Siswa Dalam Pembelajaran Matematika Pada Materi Operasi Bilangan Pecahan,” vol. 12, no. 2, pp. 251–260, 2023.

B. R. Takaendengan and B. Yanto, “Apa dan Bagaimana Mathematical Modelling Tasks?,” in Seminar Matematika Dan Pendidikan Matematika UNY, Yogyakarta, 2017. [Online]. Available: http://seminar.uny.ac.id/semnasmatematika/sites/seminar.uny.ac.id.semnasmatematika/files/full/M-28.pdf

B. R. Takaendengan, A. Asriadi, and W. Takaendengan, “Analisis Kesulitan Belajar Mahasiswa Pada Mata Kuliah Kalkulus Lanjut,” SEPREN J. Math. Educ. Appl., vol. 3, no. 2, pp. 67–75, 2022, doi: 10.51667/pjpk.v1i2.341.

M. Ramadani, H. Pujiastuti, M. Faturrohman, and S. Syamsuri, “Integrasi Teknologi Desmos dalam Pembelajaran Matematika: A Systematic Literature Review,” JIIP - J. Ilm. Ilmu Pendidik., vol. 6, no. 2, pp. 850–855, 2023, doi: 10.54371/jiip.v6i2.1340.

S. Amelia and A. Sthephani, “Analisis Keterampilan Mengajar Mahasiswa Calon Guru Matematika dalam Pemanfaatan Teknologi Pembelajaran,” J. Penelit. Pembelajaran Mat., vol. 15, no. 1, pp. 17–35, 2022.

L. S. Putri, Y. Setiani, and C. A. H. F. Santosa, “E-modul Matematika Berbasis Problem Based Learning bermuatan Pengetahuan Budaya Lokal untuk Meningkatkan Kemampuan Pemecahan Masalah,” J. Educ., vol. 9, no. 2, pp. 880–890, 2023.

Anisah, K. Nani, T. W. Triutami, and S. Azmi, “PENGARUH MODEL PROBLEM BASED LEARNING (PBL) TERHADAP HASIL BELAJAR MATEMATIKA SISWA KELAS VIII SMP NEGERI 11 MATARAM TAHUN AJARAN 2024/2025,” J. Ilm. Pendidik. Dasar, vol. 09, no. 4, 2025.

H. Mente and L. O. A. Jazuli, “Pengaruh Model Pembelajaran Problem Based Learning Terhadap Hasil Belajar Matematika Siswa Kelas X SMA Negeri 9 Kendari,” Penelit. Pendidik. Mat., vol. 2, no. 2, pp. 37–54, 2014.

H. Yavuzarslan and A. Arslan, “USAGE OF UNIVERSAL DESIGN FOR LEARNING IN MATHEMATIC COURSE Abstract:,” Psycho-Educational Res. Rev., vol. 9, no. 3, pp. 26–39, 2020.

H. A. Dalimunthe, S. S. Dewi, and F. Faadhil, “Pelatihan Universal Design for Learning untuk Meningkatkan Efikasi Diri Guru Sekolah Menengah Pertama Islam Terpadu dalam Mengajar,” J. Divers., vol. 6, no. 1, pp. 133–142, 2020, doi: 10.31289/diversita.v6i1.3784.

J. R. Root, S. K. Cox, A. Saunders, and D. Gilley, Applying the Universal Design for Learning Framework to Mathematics Instruction for Learners With Extensive Support Needs, vol. 41, no. 4. 2020. doi: 10.1177/0741932519887235.

A. Mayer, D. . Rose, and D. Gordon, Universal Design for Learning: Theory and Practice. Wakefield: CAST Professional Publishing, 2014.

T. . Hall, A. Mayer, and D. . Rose, An Introduction to Universal Design for Learning: Questions and Answer s. In T. E . Hall, A. Mayer, & D. H. Rose (Eds.) Universal Design for Learning in the Classroom. New York: Guilford, 2012.

L. Rismaini, D. Erdriani, and S. Dewimarni, “Pengembangan Handout Berorientasi Strategi Pembelajaran Snowball Throwing Untuk Meningkatkan Hasil Belajar Matematika Siawa Kelas IV SDN 19 Nan Sabaris,” J. Pendidik. Mat. Raflesia, vol. 04, no. 02, pp. 136–144, 2019.

R. Wijayanti, B. Hasan, and R. K. Loganathan, “Media comic math berbasis whiteboard annimation dalam pelajaran matematika,” J. Ris. Pendidik. Mat., vol. 5, no. 1, pp. 53–63, 2018, doi: 10.21831/jrpm.v5i1.19207.

B. R. Takaendengan, A. R. Nuha, T. Damayanti, Asriadi, M. Janna, and F. Anggraini, “Advanced Differential E-Module: Integrating Case-Based and Visual Exploration,” J. Educ. Technol., vol. 8, no. 4, pp. 632–640, 2024, doi: 10.23887/jet.v8i4.85781.

J. Schoenherr, A. R. Strohmaier, and S. Schukajlow, “Learning with visualizations helps: A meta-analysis of visualization interventions in mathematics education,” Educ. Res. Rev., vol. 45, no. September, p. 100639, 2024, doi: 10.1016/j.edurev.2024.100639.

N. I. Zuniari, S. Wahyuni, and Z. R. Ridlo, “to Improve Critical Thinking Skills in Junior High School Students,” Asian J. Sci. Educ., vol. 5, no. 1, pp. 54–69, 2023.

I. T. Nurdin, H. D. Putra, and W. Hidayat, “The Development of Problem Based Learning Google Sites-Assisted Digital Teaching Materials to Improve Students’ Mathematical Critical Thinking Ability,” J. Innov. Math. Learn., vol. 6, no. 4, pp. 280–293, 2023, doi: 10.22460/jiml.v6i4.18520.

M. G. Veytia Bucheli, J. Gómez-Galán, M. L. Cáceres Mesa, and L. López Catalán, “Digital technologies as enablers of universal design for learning: higher education students’ perceptions in the context of SDG4,” Discov. Sustain., vol. 5, no. 1, 2024, doi: 10.1007/s43621-024-00699-0.

S. Saborío-Taylor and F. Rojas-Ramírez, “Universal design for learning and artificial intelligence in the digital era: Fostering inclusion and autonomous learning,” Int. J. Prof. Dev. Learn. Learn., vol. 6, no. 2, p. ep2408, 2024, doi: 10.30935/ijpdll/14694.

D. M. Anggraeni, B. K. Prahani, N. Suprapto, N. Shofiyah, and B. Jatmiko, “Systematic review of problem based learning research in fostering critical thinking skills,” Think. Ski. Creat., vol. 49, no. February, p. 101334, 2023, doi: 10.1016/j.tsc.2023.101334.

D. E. Pitorini, Suciati, and Harlita, “Using an E-Module Based on Problem-Based Learning Combined With Socratic Dialogue To Develop Students’ Critical Thinking Skills: a Qualitative Study,” J. Educ. Online, vol. 22, no. 1, pp. 52–65, 2025, doi: 10.9743/JEO.2025.22.1.18.

M. Nurwahid, “Urgensi dan Implementasi Technological Pedagogical and Content Knowledge (TPACK) dalam Pembelajaran Matematika,” Math. Educ. Appl. J., vol. 6, no. 1, pp. 48–62, 2024.

A. J. Doyle, M. O’Toole, D. Cassidy, and C. M. Condron, “Universal Design for Learning (UDL) in simulation-based health professions education,” Adv. Simul., vol. 10, no. 1, pp. 1–12, 2025, doi: 10.1186/s41077-025-00361-3.

M. Roski, R. Sebastian, R. Ewerth, A. Hoppe, and A. Nehring, “Learning analytics and the Universal Design for Learning (UDL): A clustering approach,” Comput. Educ., vol. 214, no. September 2023, p. 105028, 2024, doi: 10.1016/j.compedu.2024.105028.

J. R. Root, S. K. Cox, A. Saunders, and D. Gilley, “Applying the Universal Design for Learning Framework to Mathematics Instruction for Learners With Extensive Support Needs,” Remedial Spec. Educ., vol. 41, no. 4, pp. 194–206, 2020, doi: 10.1177/0741932519887235.