This research is part of Didactical Design Research (DDR) aimed at developing a Hypothetical Learning Trajectory (HLT) in the concept of similarity learning. This study focuses on the prospective analysis stage within DDR. The HLT developed in this research is the result of identifying potential learning obstacles that may arise during the process of similarity learning. Data was collected through five steps in the prospective analysis: 1) cognitive development of seventh-grade students in middle school; 2) research on the topic of similarity and related research findings; 3) curriculum analysis of mathematics textbooks using praxeological theory; 4) reflection and evaluation of learning obstacles; 5) anticipation of student responses and pedagogical strategies. Data collection techniques used were literature study and Praxeology analysis within the Anthropological Theory of Didactics (ATD). The obtained data was then analyzed thematically to identify and understand learning obstacles in the topic of similarity, as well as to design an HLT to address these obstacles. This research revealed difficulties experienced by students in understanding the concept of similarity, such as a lack of initial understanding of scale and magnification concepts, difficulties in comprehending the relationship between ratios and scale factors previously learned, and a lack of relevant task design sequence related to the application of similarity in everyday life. The conclusion of this research is that designing an effective online HLT to overcome learning obstacles in the topic of similarity requires a student-centered approach, the use of active learning strategies, and interactive student engagement. Additionally, it is important to encourage students to think critically and connect concepts to everyday life.

Aaron, L. S., & Lipton, T. (2018). Digital distraction: Shedding light on the 21st-century college classroom. Journal of Educational Technology Systems, 46(3), 363–378.

Agra, G., Formiga, N. S., Oliveira, P. S. de, Costa, M. M. L., Fernandes, M. das G. M., & Nóbrega, M. M. L. da. (2019). Analysis of the concept of Meaningful Learning in light of the Ausubel’s Theory. Revista Brasileira de Enfermagem, 72, 248–255.

Aljawarneh, S. A. (2020). Reviewing and exploring innovative ubiquitous learning tools in higher education. Journal of Computing in Higher Education, 32, 57–73. https://doi.org/10.1007/s12528-019-09207-0

Amaral-Schio, R., & Hollebrands, K. (2021). An Analysis of The Concept of Similarity Presented in Textbooks in Brazil and The United States.

Andrews-Larson, C., Wawro, M., & Zandieh, M. (2017). A hypothetical learning trajectory for conceptualizing matrices as linear transformations. International Journal of Mathematical Education in Science and Technology, 48(6), 809–829.

Audi, R. (2011). Epistemology: A Contemporary Introduction to the Theory of Knowledge. Routledge.

Auh, Y., & Sim, H. R. (2019). Uses of social network topology and network-integrated multimedia for designing a large-scale open learning system: case studies of unsupervised featured learning platform Design in South Korea. Multimedia Tools and Applications, 78, 5445–5462. https://doi.org/10.1007/s11042-018-6658-1

Bakker, A., & Smit, J. (2018). Using hypothetical learning trajectories in design research. In Design Research in Education (pp. 255–271). Routledge.

Barnett, J., McPherson, V., & Sandieson, R. M. (2013). Connected teaching and learning: The uses and implications of connectivism in an online class. Australasian Journal of Educational Technology, 29(5).

Bjorklund, D. F. (2022). Children′ s thinking: Cognitive development and individual differences. Sage publications.

Bosch, M., Gascón, J., & Trigueros, M. (2017). Dialogue between theories interpreted as research praxeologies: the case of APOS and the ATD. Educational Studies in Mathematics, 95(1), 39–52. https://doi.org/10.1007/s10649-016-9734-3

Carstens, K. J., Mallon, J. M., Bataineh, M., & Al-Bataineh, A. (2021). Effects of Technology on Student Learning. Turkish Online Journal of Educational Technology-TOJET, 20(1), 105–113.

Castro, R. (2019). Blended learning in higher education: Trends and capabilities. Education and Information Technologies, 24(4), 2523–2546.

Chevallard, Y., & Bosch, M. (2020). Anthropological theory of the didactic (ATD). Encyclopedia of Mathematics Education, 53–61.

Clivaz, S., & Miyakawa, T. (2020). The effects of culture on mathematics lessons: an international comparative study of a collaboratively designed lesson. Educational Studies in Mathematics, 105(1), 53–70. https://doi.org/10.1007/s10649-020-09980-1

Cox, D. C. (2013). Similarity in middle school mathematics: At the crossroads of geometry and number. Mathematical Thinking and Learning, 15(1), 3–23.

Dakhi, O., Jama, J., & Irfan, D. (2020). Blended learning: a 21st century learning model at college. International Journal Of Multi Science, 1(08), 50–65.

Decano, R. S. (2017). Cognitive development of college students and their achievement in geometry: an evaluation using Piaget’s theory and Van Hiele’s levels of thinking. American Journal of Applied Sciences, 14(190), 899–911.

Dengel, A., & Mägdefrau, J. (2018). Immersive learning explored: Subjective and objective factors influencing learning outcomes in immersive educational virtual environments. 2018 IEEE International Conference on Teaching, Assessment, and Learning for Engineering (TALE), 608–615.

Duschl, R., Maeng, S., & Sezen, A. (2011). Learning progressions and teaching sequences: A review and analysis. Studies in Science Education, 47(2), 123–182.

Fägerstam, E. (2014). High school teachers’ experience of the educational potential of outdoor teaching and learning. Journal of Adventure Education & Outdoor Learning, 14(1), 56–81.

Ferri, F., Grifoni, P., & Guzzo, T. (2020). Online learning and emergency remote teaching: Opportunities and challenges in emergency situations. Societies, 10(4), 86.

Fitriyani, F., Sunaryati, T., & Surya, V. M. K. (2023). Implementation Of Project-Based Learning Oriented To The Merdeka Learning Curriculum In The Form Of A Pancasila Student Profile With Global Diversity. Buana Pendidikan: Jurnal Fakultas Keguruan Dan Ilmu Pendidikan Unipa Surabaya, 19(1), 115–124. https://doi.org/10.36456/bp.vol19.no1.a6832

Ghanizadeh, A., Al-Hoorie, A. H., & Jahedizadeh, S. (2020). Higher order thinking skills in the language classroom: A concise guide. Springer.

Gillett-Swan, J. (2017). The challenges of online learning: Supporting and engaging the isolated learner. Journal of Learning Design, 10(1), 20–30. https://doi.org/10.5204/jld.v9i3.293

Hadi, A., Marniati, M., Ngindana, R., Kurdi, M. S., Kurdi, M. S., & Fauziah, F. (2023). New Paradigm of Merdeka Belajar Curriculum in Schools. AL-ISHLAH: Jurnal Pendidikan, 15(2). https://doi.org/10.35445/alishlah.v15i2.3126

Haleem, A., Javaid, M., Qadri, M. A., & Suman, R. (2022). Understanding the role of digital technologies in education: A review. Sustainable Operations and Computers.

Hutchison, E. D. (2018). Dimensions of human behavior: Person and environment. Sage Publications.

Jupri, A., Usdiyana, D., & Sispiyati, R. (2019). Designing an algebra learning sequence: the case of operations on algebraic expressions. Journal of Physics: Conference Series, 1280(4), 42038.

Kazi, S., & Galanaki, E. (2019). Piagetian theory of cognitive development. The Encyclopedia of Child and Adolescent Development, 1–11.

Kebritchi, M., Lipschuetz, A., & Santiague, L. (2017). Issues and challenges for teaching successful online courses in higher education: A literature review. Journal of Educational Technology Systems, 46(1), 4–29.

Khan, A., Egbue, O., Palkie, B., & Madden, J. (2017). Active learning: Engaging students to maximize learning in an online course. Electronic Journal of E-Learning, 15(2), pp107-115.

Kilag, O. K. T., Ignacio, R., Lumando, E. B., Alvez, G. U., Abendan, C. F. K., Quiñanola, N. M. P., & Sasan, J. M. (2022). ICT Integration in Primary Classrooms in the Light of Jean Piaget’s Cognitive Development Theory.

Ko, S., & Rossen, S. (2017). Teaching online: A practical guide. Taylor & Francis.

Krishnan, I. A., Ching, H. S., Ramalingam, S., Maruthai, E., Kandasamy, P., De Mello, G., Munian, S., & Ling, W. W. (2020). Challenges of learning English in 21st century: Online vs. traditional during Covid-19. Malaysian Journal of Social Sciences and Humanities (MJSSH), 5(9), 1–15.

Kuncoro, K. S., Sukiyanto, S., Irfan, M., Amalia, A. F., Pusporini, W., Wijayanti, A., & Widodo, S. A. (2022). Peningkatan Literasi Digital Guru Guna Mengatasi Permasalahan Pembelajaran di Era Pandemi Covid-19. Abdi Wiralodra: Jurnal Pengabdian Kepada Masyarakat, 4(1), 17–34. https://doi.org/10.31943/abdi.v4i1.50

Lestari, K. I., Arcana, I. N., Susetyo, A. E., & Kuncoro, K. S. (2022). Development of Online Learning Quiz and Educational Game Using Word Walls in Mathematics for Grade 10. INSANIA: Jurnal Pemikiran Alternatif Kependidikan, 27(2), 145–159. https://doi.org/10.24090/insania.v27i2.6924

Long, T., Cummins, J., & Waugh, M. (2017). Use of the flipped classroom instructional model in higher education: instructors’ perspectives. Journal of Computing in Higher Education, 29, 179–200.

Martin, F., & Bolliger, D. U. (2018). Engagement matters: Student perceptions on the importance of engagement strategies in the online learning environment. Online Learning, 22(1), 205–222.

Mcleod, S. (2022). Vygotsky’s sociocultural theory of cognitive development. Retrieved from Simply Psychology: Https://Www. Simplypsychology. Org/Vygotsky. Html.

Myers, S. (2021). Jerome Bruner: An Overview of Key Ideas. Jerome Bruner, Meaning Making and Education for Conflict Resolution.

O’Halloran, K. L., Beezer, R. A., & Farmer, D. W. (2018). A new generation of mathematics textbook research and development. ZDM, 50(5), 863–879.

OECD. (2019). PISA 2018 Results (Volume I) : What Students Know and Can Do. PISA, OECD Publishing. https://doi.org/10.1787/5f07c754-en

Parisa, M., Arcana, I. N., Susetyo, A. E., & Kuncoro, K. S. (2023). Pengembangan Kuis dan Game Edukasi Menggunakan Wordwall pada Pembelajaran Daring Pertidaksamaan Nilai Mutlak Bentuk Linier. Jurnal THEOREMS (The Original Research of Mathematics), 7(2), 167–180. https://doi.org/10.31949/th.v7i2.4351

Prabowo, A., & Juandi, D. (2020). Analisis situasi didaktis dalam pembelajaran matematika berbantuan ICT pada siswa SMP. Pythagoras: Jurnal Pendidikan Matematika, 15(1), 1–12.

Pritchard, D. (2018). What is this thing called knowledge? Routledge.

Puspita, R., Yani, E., Dinnisa, K., Kusumaningrum, B., Kuncoro, K. S., Ayuningtyas, A. D., & Irfan, M. (2022). Interactive Math Path: Permainan Ular Tangga Berbasis Etnomatematika. UNION: Jurnal Ilmiah Pendidikan Matematika, 10(1), 93–102. https://doi.org/10.30738/union.v10i1.12139

Qian, Y., & Lehman, J. (2017). Students’ misconceptions and other difficulties in introductory programming: A literature review. ACM Transactions on Computing Education (TOCE), 18(1), 1–24.

Rahiem, M. D. H. (2020). The emergency remote learning experience of university students in Indonesia amidst the COVID-19 crisis. International Journal of Learning, Teaching and Educational Research, 19(6), 1–26.

Rapanta, C., Botturi, L., Goodyear, P., Guàrdia, L., & Koole, M. (2020). Online university teaching during and after the Covid-19 crisis: Refocusing teacher presence and learning activity. Postdigital Science and Education, 2, 923–945.

Reid, M., & Reid, S. (2017). Learning to Be a Math Teacher: What Knowledge Is Essential?. International Electronic Journal of Elementary Education, 9(4), 851–872.

Rusydiyah, E. F., Purwati, E., & Prabowo, A. (2020). How to use digital literacy as a learning resource for teacher candidates in Indonesia. Cakrawala Pendidikan, 39(2), 305–318.

Seago, N., Jacobs, J., Driscoll, M., Matassa, M., & Callahan, M. (2013). Developing teachers’ knowledge of a transformations-based approach to geometric similarity. Mathematics Teacher Educator, 2(1), 74–85. https://doi.org/10.5951/mathteaceduc.2.1.0074

Serrano, D. R., Dea‐Ayuela, M. A., Gonzalez‐Burgos, E., Serrano‐Gil, A., & Lalatsa, A. (2019). Technology‐enhanced learning in higher education: How to enhance student engagement through blended learning. European Journal of Education, 54(2), 273–286. https://doi.org/10.1111/ejed.12330

Shinno, Y., & Mizoguchi, T. (2021). Theoretical approaches to teachers’ lesson designs involving the adaptation of mathematics textbooks: two cases from kyouzai kenkyuu in Japan. ZDM - Mathematics Education, 53(6), 1387–1402. https://doi.org/10.1007/s11858-021-01269-8

Simsek, A., Bretscher, N., Clark-Wilson, A., & Hoyles, C. (2022). Teachers’ classroom use of dynamic mathematical technology to address misconceptions about geometric similarity. Twelfth Congress of the European Society for Research in Mathematics Education (CERME12).

Simsek, A., & Clark-Wilson, A. (2018). Teacher knowledge for teaching geometric similarity with technology: A review of literature. Edited by: Hans-Georg Weigand, Alison Clark-Wilson, Ana Donevska, 249.

Sun, J. C., Wu, Y., & Lee, W. (2017). The effect of the flipped classroom approach to OpenCourseWare instruction on students’ self‐regulation. British Journal of Educational Technology, 48(3), 713–729.

Suryadi, D. (2019a). Landasan Filosofis Penelitian Desain Didaktis (DDR). Pusat Pengembangan DDR Indonesia.

Suryadi, D. (2019b). Penelitian Desain Didaktis (DDR) dan Implementasinya. Gapura Press.

Susanto, D., Sihombing, S., Radjawane, M. M., Wardani, A. K., Kurniawan, T., Candra, Y., & Mulyani, S. (2022). Matematika. Pusat Perbukuan Badan Standar, Kurikulum, dan Asesmen Pendidikan Kementerian Pendidikan, Kebudayaan, Riset, dan Teknologi.

Szymkowiak, A., Melović, B., Dabić, M., Jeganathan, K., & Kundi, G. S. (2021). Information technology and Gen Z: The role of teachers, the internet, and technology in the education of young people. Technology in Society, 65, 101565. https://doi.org/10.1016/j.techsoc.2021.101565

Takeuchi, H., & Shinno, Y. (2020). Comparing the Lower Secondary Textbooks of Japan and England: a Praxeological Analysis of Symmetry and Transformations in Geometry. International Journal of Science and Mathematics Education, 18(4), 791–810. https://doi.org/10.1007/s10763-019-09982-3

Tang, T., Abuhmaid, A. M., Olaimat, M., Oudat, D. M., Aldhaeebi, M., & Bamanger, E. (2020). Efficiency of flipped classroom with online-based teaching under COVID-19. Interactive Learning Environments, 1–12.

Taranto, E., Robutti, O., & Arzarello, F. (2020). Learning within MOOCs for mathematics teacher education. ZDM - Mathematics Education, 52(7), 1439–1453. https://doi.org/10.1007/s11858-020-01178-2

Utami, N. S., Prabawanto, S., & Priatna, N. (2022). A didactical design for introducing the concepts in algebraic forms using the theory of praxeology. Beta: Jurnal Tadris Matematika, 15(1), 53–71.

Wang, J., Shimada, A., Oi, M., Ogata, H., & Tabata, Y. (2020). Development and evaluation of a visualization system to support meaningful e-book learning. Interactive Learning Environments, 1–18.

Wijayanti, D., & Aufa, D. N. (2020). Picturing Textbook on Exponent Equations Based on Praxeology Organization. 2nd Social and Humaniora Research Symposium (SoRes 2019), 494–498.

Wu, J.-Y., & Cheng, T. (2019). Who is better adapted in learning online within the personal learning environment? Relating gender differences in cognitive attention networks to digital distraction. Computers & Education, 128, 312–329.

Wulandari, D., Arcana, I. N., & Kuncoro, K. S. (2022). Pengembangan Instagram reels pembelajaran pokok bahasan persamaan garis lurus untuk SMP. UNION: Jurnal Ilmiah Pendidikan Matematika, 10(1), 1–14. https://doi.org/10.30738/union.v10i1.12138

Zainuddin, Z., Shujahat, M., Haruna, H., & Chu, S. K. W. (2020). The role of gamified e-quizzes on student learning and engagement: An interactive gamification solution for a formative assessment system. Computers & Education, 145, 103729.