This research discusses the implementation of the Problem-Based Learning model assisted by E-Book to improve students' problem-solving skills on renewable energy materials. The purpose of this research is to identify the characteristics of physics problem-solving through the knowledge profile of students at the high school level as a consideration in the application of the PBL model and the use of E-Book assisted learning media to improve problem-solving skills. The research method used is a preliminary study with qualitative descriptive analysis. The instruments used include the problem-solving skills test, interview questionnaire, and student response questionnaire. The data analysis technique in this study used a problem-solving skills test questionnaire and a survey to get responses from students. The findings showed that students' problem-solving skills were generally in the low category. Of the total learners, 87 students were in the low category, 2 students in the medium category, and 1 student in the high category. Although students have been able to understand the problem, they still experience problems in providing answers and checking back due to lack of habit in working on problem-solving-based problems.  Therefore, it is necessary to practice and use learning models, as well as E-Book technology, which can help in the process of teaching and learning activities and increase students' learning motivation. Thus, it is expected that students' problem-solving skills can be improved through the right learning approach and the use of relevant technology.

Abdullaeva, B. P. (2022). Use of Team Sports in Physical Education Activities in Preschool Educational Organizations in Our Country and Abroad. Periodica Journal of Modern Philosophy, Social Sciences and Humanities, 12, 116–120.

Adam, A. S., & Suprapto, N. (2019). One-stop physics e-book package development for senior high school learning media. International Journal of Emerging Technologies in Learning (Online), 14(19), 150.

Admoko, S., Hanifah, N., Suprapto, N., Hariyono, E., & Madlazim, M. (2021). The implementation of argument driven inquiry (ADI) learning model to improve scientific argumentation skills of high school students. Journal of Physics: Conference Series, 1747(1), 12046.

Adriyawati, A., Utomo, E., Rahmawati, Y., & Mardiah, A. (2020). Steam-project-based learning integration to improve elementary school students’ scientific literacy on alternative energy learning. Universal Journal of Educational Research, 8(5), 1863–1873.

Afnan, R., Munasir, M., Budiyanto, M., & Aulia, M. I. R. (2023). The Role of Scientific Literacy Instruments For Measuring Science Problem Solving Ability. IJORER: International Journal of Recent Educational Research, 4(1), 45–58.

Al Rawashdeh, A. Z., Mohammed, E. Y., Al Arab, A. R., Alara, M., & Al-Rawashdeh, B. (2021). Advantages and disadvantages of using e-learning in university education: Analyzing students’ perspectives. Electronic Journal of E-Learning, 19(3), 107–117.

Almulla, M. A., & Al-Rahmi, W. M. (2023). Integrated Social Cognitive Theory with Learning Input Factors: The Effects of Problem-Solving Skills and Critical Thinking Skills on Learning Performance Sustainability. Sustainability, 15(5), 3978.

Ambaryani, S. E., & Putranta, H. (2022). Improving Learners’ Metacognitive Skills with Self-Regulated Learning Based Problem-Solving. International Journal of Instruction, 15(1), 139–154.

Amin, B. D., Haris, A., & Swandi, A. (2019). Implementation of physics learning based on hypermedia to enhance student’s problem solving skill. International Journal of Teaching and Education, 7(2), 1–11.

Anam, K., Sudarwo, R., & Wiradharma, G. (2020). Application of the Problem Based Learning Model to Communication Skills and Mathematical Problem Solving Skills in Junior High School Students. JTAM (Jurnal Teori Dan Aplikasi Matematika), 4(2), 155–165.

Ananda, P. D., & Atmojo, S. E. (2022). The Impact of the Discovery Learning Model on Problem-Solving Ability and Scientific Attitude of Elementary School Teacher Education Students. International Journal of Elementary Education, 6(2).

Andriyani, N. L., & Suniasih, N. W. (2021). Development of learning videos based on problem-solving characteristics of animals and their habitats contain in IPA subjects on 6th-grade. Journal of Education Technology, 5(1), 37–47.

Anggraini, R. T., Hidayat, A., Fauziyah, S., Pramono, N. A., Supriana, E., & Ali, M. (2021). The building of students’ problem solving skills through STEM aproach with virtual simulation media. Journal of Physics: Conference Series, 1842(1), 12073.

Asrial, A., Syahrial, S., Kurniawan, D. A., Alirmansyah, A., Sholeh, M., & Zulkhi, M. D. (2022). The Influence of Application of Local-wisdom-based Modules toward Peace-loving Characters of Elementary School Students. Indonesian Journal on Learning and Advanced Education (IJOLAE), 4(2), 157–170.

Astra, I. M., Raihanati, R., & Mujayanah, N. (2020). Development of electronic module using creative problem-solving model equipped with HOTS problems on the kinetic theory of gases material. Jurnal Penelitian & Pengembangan Pendidikan Fisika, 6(2), 181–194.

Astuti, A. P., Aziz, A., Sumarti, S. S., & Bharati, D. A. L. (2019). Preparing 21st century teachers: Implementation of 4C character’s pre-service teacher through teaching practice. Journal of Physics: Conference Series, 1233(1), 12109.

Astuti, N. H., Rusilowati, A., & Subali, B. (2021). STEM-based learning analysis to improve students’ problem solving abilities in science subject: A literature review. Journal of Innovative Science Education, 10(1), 79–86.

Ayudha, C. F. H., & Setyarsih, W. (2021). Studi literatur: Analisis praktik pembelajaran fisika di sma untuk melatih keterampilan pemecahan masalah. Jurnal Pendidikan Fisika Undiksha, 11(1), 16–28.

Baehaqi, M. R., Parta, I. N., & Chandra, T. D. (2023). Kemampuan Komunikasi Matematis Tulis Siswa Bergaya Belajar Visual Dalam Menyelesaikan Masalah Ditinjau dari Perbedaan Gender. Jurnal Cendekia: Jurnal Pendidikan Matematika, 7(1), 550–561.

Capriconia, J., & Mufit, F. (2022). Analysis of Concept Understanding and Students’ Attitudes towards Learning Physics in Material of Straight Motion. Jurnal Penelitian Pendidikan IPA, 8(3), 1453–1461.

Ceberio, M., Almudí, J. M., & Franco, Á. (2016). Design and application of interactive simulations in problem-solving in university-level physics education. Journal of Science Education and Technology, 25, 590–609.

Chevalier, M., Giang, C., Piatti, A., & Mondada, F. (2020). Fostering computational thinking through educational robotics: A model for creative computational problem solving. International Journal of STEM Education, 7(1), 1–18.

Daryanes, F., Darmadi, D., Fikri, K., Sayuti, I., Rusandi, M. A., & Situmorang, D. D. B. (2023). The development of articulate storyline interactive learning media based on case methods to train student’s problem-solving ability. Heliyon, 9(4).

Dawana, I. R., Dwikoranto, Setiani, R., & Marsini. (2022). E-Book Learning Research in Physics Education During the Last Five Years: A Review and Bibliometric Study. Journal of Physics: Conference Series, 2392(1), 12016. https://doi.org/10.1088/1742-6596/2392/1/012016

Dawana, I. R., Setyarsih, W., Suprapto, N., & Dwikoranto, D. (2022). The effectiveness of virtual class-based e-learning with video-assisted google classroom as a physics learning media (2016-2020). Momentum: Physics Education Journal, 6(2), 188–198.

De la Torre, R., Onggo, B. S., Corlu, C. G., Nogal, M., & Juan, A. A. (2021). The role of simulation and serious games in teaching concepts on circular economy and sustainable energy. Energies, 14(4), 1138.

Dewi, L., & Dwikoranto, D. (2021). Analisis Pendekatan Pembelajaran Contextual Teaching and Learning (CTL) Terhadap Peningkatan Hasil Belajar Fisika dengan Metoda Library Research. PENDIPA Journal of Science Education, 5(2), 237–243.

Dini, D. F. R., & Maarif, S. (2022). Students’ problem-solving ability: An analytical practice viewed from the aspect of sociomathematical norm. Desimal: Jurnal Matematika, 5(1), 91–102.

Dita, P. P. S., Utomo, S., & Sekar, D. A. (2021). Implementation of Problem Based Learning (PBL) on interactive learning media. Journal of Technology and Humanities, 2(2), 24–30.

Dood, A. J., & Watts, F. M. (2022). Students’ strategies, struggles, and successes with mechanism problem solving in organic chemistry: a scoping review of the research literature. Journal of Chemical Education, 100(1), 53–68.

Dwikoranto, D. (2022). Using toulmin’s argument pattern on problem solving model to improve problem-solving analysis ability: Learning alternatives during the COVID-19 pandemic. IJORER: International Journal of Recent Educational Research, 3(2), 200–209.

Ebied, M. M. A., & Rahman, S. A. A. (2015). The Effect of Interactive e-Book on Students’ Achievement at Najran University in Computer in Education Course. Journal of Education and Practice, 6(19), 71–82.

Emaliana, I. (2017). Teacher-centered or student-centered learning approach to promote learning? Jurnal Sosial Humaniora (JSH), 10(2), 59–70.

Fatimah, F. S., Asy’ari, H., Sandria, A., & Nasucha, J. A. (2023). Learning Fiqh Based on the TAPPS (Think Aloud Pair Problem Solving) Method in Improving Student Learning Outcomes. At-Tadzkir: Islamic Education Journal, 2(1), 1–15.

Fauzia, N. L. U., & Kelana, J. B. (2020). Natural Science Problem Solving in Elementary School Students Using the Project Based Learning (PjBL) Model. Jurnal Ilmiah Sekolah Dasar, 4(4), 596–603.

Fey, C. F. (2022). A perspective on the potential of Chinese business schools: A call for greater attention to context, differentiation, and developing an indigenous model. Management and Organization Review, 18(5), 982–999.

Fitriani, A., Zubaidah, S., Susilo, H., & Al Muhdhar, M. H. I. (2020). The effects of integrated problem-based learning, predict, observe, explain on problem-solving skills and self-efficacy. Eurasian Journal of Educational Research, 20(85), 45–64.

García-Moya, M., Polo-Blanco, I., Blanco, R., & Goñi-Cervera, J. (2022). Teaching cartesian product problem solving to students with autism spectrum disorder using a conceptual model-based approach. Focus on Autism and Other Developmental Disabilities, 10883576221121806.

Good, M., Maries, A., & Singh, C. (2022). Additional unexpected benefits of rewarding students for effective problem solving strategies: supporting gender equity in physics. Physics Education, 57(5), 55005.

Good, M., Marshman, E., Yerushalmi, E., & Singh, C. (2020). Graduate teaching assistants’ views of broken-into-parts physics problems: Preference for guidance overshadows development of self-reliance in problem solving. Physical Review Physics Education Research, 16(1), 10128.

Gunawan, G., Harjono, A., Herayanti, L., & Husein, S. (2019). Problem-based learning approach with supported interactive multimedia in physics course: Its effects on critical thinking disposition. Journal for the Education of Gifted Young Scientists, 7(4), 1075–1089.

Gunawan, G., Mashami, R. A., & Herayanti, L. (2020). Gender description on problem-solving skills in chemistry learning using interactive multimedia. Journal for the Education of Gifted Young Scientists, 8(1), 561–589. https://doi.org/10.17478/jegys.627095

Haeruddin, H., Kamaluddin, K., Kade, A., & Pabianan, A. R. (2022). Analysis of attitudes and approaches to problem solving: gender differences and education levels. Radiasi: Jurnal Berkala Pendidikan Fisika, 15(1), 12–21.

Hamerski, P. C., McPadden, D., Caballero, M. D., & Irving, P. W. (2022). Students’ perspectives on computational challenges in physics class. Physical Review Physics Education Research, 18(2), 20109.

Han, Y., Liu, H., & Ji, F. (2022). A sequential response model for analyzing process data on technology-based problem-solving tasks. Multivariate Behavioral Research, 57(6), 960–977.

Haque, R. A., Karim, S., & Sari, I. M. (2021). Penerapan Model Flipped Classroom Berbantuan E-Book Interaktif untuk Meningkatkan Kompetensi Literasi Sains Momentum dan Impuls Peserta Didik. Jurnal Riset Pendidikan Fisika, 6(2), 108–117. http://journal2.um.ac.id/index.php/jrpf/article/view/21463%0Ahttp://journal2.um.ac.id/index.php/jrpf/article/download/21463/8973

Harun, L., Darhim, D., Dahlan, J. A., Harisman, Y., Sovia, A., & Bakar, M. T. (2019). Students’ gesture of naive, routine, and shopisticated behavior oriented on mathematical problem solving. Journal of Physics: Conference Series, 1157(4), 42074.

Haryanti, N., Wilujeng, I., & Sundari, S. (2020). Problem based learning instruction assisted by e-book to improve mathematical representation ability and curiosity attitudes on optical devices. Journal of Physics: Conference Series, 1440(1), 12045.

Hediansah, D., & Surjono, H. D. (2019). Building Motivation and Improving Learning Outcomes with Android-Based Physics Books: Education 4.0. Anatolian Journal of Education, 4(2), 1–10.

Herayanti, L., Widodo, W., Susantini, E., & Gunawan, G. (2020). The effectiveness of blended learning model based on inquiry collaborative tutorial toward students’ problem-solving skills in physics. Journal for the Education of Gifted Young Scientists, 8(3), 959–972.

Hidaayatullaah, H. N., Suprapto, N., Mubarok, H., & Wulandari, D. (2020). Implementation of problem based learning to train physics students’ problem solving skills. Journal of Physics: Conference Series, 1491(1), 12053.

Hrybiuk, O. (2019). Improvement of the educational process by the creation of centers for intellectual development and scientific and technical creativity. Advances in Manufacturing II: Volume 2-Production Engineering and Management, 370–382.

Hwang, G.-J., Tu, N.-T., & Wang, X.-M. (2018). Creating interactive e-books through learning by design: The impacts of guided peer-feedback on students’ learning achievements and project outcomes in science courses. Journal of Educational Technology & Society, 21(1), 25–36.

Is’ ad, N., & Sukarmin, S. (2022). Implementation of problem-solving learning model assisted by student worksheets to improve critical thinking skills in the context of reaction rate. Jurnal Pijar Mipa, 17(2), 199–208.

Jalinus, N. (2021). Developing blended learning model in vocational education based on 21st century integrated learning and industrial revolution 4.0. Turkish Journal of Computer and Mathematics Education (TURCOMAT), 12(8), 1239–1254.

Jeong, H.-C., & So, W.-Y. (2020). Difficulties of online physical education classes in middle and high school and an efficient operation plan to address them. International Journal of Environmental Research and Public Health, 17(19), 7279.

Kartikasari, I. A., & Usodo, B. (2022). The effectiveness open-ended learning and creative problem solving models to improve creative thinking skills. Pegem Journal of Education and Instruction, 12(4), 29–38.

Kenedi, A. K., Helsa, Y., Ariani, Y., Zainil, M., & Hendri, S. (2019). Mathematical Connection of Elementary School Students to Solve Mathematical Problems. Journal on Mathematics Education, 10(1), 69–80.

Kim, N. J., Vicentini, C. R., & Belland, B. R. (2022). Influence of scaffolding on information literacy and argumentation skills in virtual field trips and problem-based learning for scientific problem solving. International Journal of Science and Mathematics Education, 1–22.

Krasnova, L. A., & Shurygin, V. Y. (2020). Blended learning of physics in the context of the professional development of teachers. International Journal of Technology Enhanced Learning, 12(1), 38–52.

La Braca, F., & Kalman, C. S. (2021). Comparison of labatorials and traditional labs: The impacts of instructional scaffolding on the student experience and conceptual understanding. Physical Review Physics Education Research, 17(1), 10131.

Lai, C.-S. (2016). Integrating E-Books into Science Teaching by Preservice Elementary School Teachers. Journal of Education in Science, Environment and Health, 2(1), 57–66.

Leite, V. (2017). Innovative learning in engineering education: Experimenting with short-term project-oriented research and project-based learning. 2017 IEEE 26th International Symposium on Industrial Electronics (ISIE), 1555–1560.

Litia, N., Sinaga, B., & Mulyono, M. (2023). Profil Berpikir Komputasi Siswa dengan Menggunakan Model Pembelajaran Problem Based Learning (PBL) Ditinjau dari Gaya Belajar di SMA N 1 Langsa. Jurnal Cendekia: Jurnal Pendidikan Matematika, 7(2), 1508–1518.

Mahardika, A. I., Pertiwi, H., & Miriam, S. (2021). Pengembangan Emorish Untuk Meningkatkan Keterampilan Pemecahan Masalah Pada Pembelajaran Fisika. Jurnal Kependidikan: Penelitian Inovasi Pembelajaran, 5(2). https://doi.org/10.21831/jk.v5i2.40251

Mahardika, N. I., & Zainuddin, A. (2022). Application of Formative Assessment to Analyze Students’ Problem-Solving Skills. Prisma Sains: Jurnal Pengkajian Ilmu Dan Pembelajaran Matematika Dan IPA IKIP Mataram, 10(2), 226–236.

Maries, A., & Singh, C. (2023). Helping students become proficient problem solvers Part I: A brief review. Education Sciences, 13(2), 156.

McCrum, D. P. (2017). Evaluation of creative problem-solving abilities in undergraduate structural engineers through interdisciplinary problem-based learning. European Journal of Engineering Education, 42(6), 684–700.

Melawati, O., Evendi, E., Halim, A., Yusrizal, Y., & Elisa, E. (2022). The influence of the use of student worksheet problem-based to increase problem solving skills and learning outcomes. Jurnal Penelitian Pendidikan IPA, 8(1), 346–355.

Meuer, J., Lamaro, F., & Vetterli, N. (2021). Embedding energy optimization in organizations: A case study of a Swiss decentralized renewable energy system. Energy and Buildings, 235, 110710.

Mufit, F., Asrizal, A., Puspitasari, R., & Annisa, A. (2022). Cognitive Conflict-Based E-Book with Real Experiment Video Analysis Integration to Enhance Conceptual Understanding of Motion Kinematics. Jurnal Pendidikan IPA Indonesia, 11(4).

Neswary, S. B. A., & Prahani, B. K. (2022). Profile of students’ physics critical thinking skills and application of problem based learning models assisted by digital books in physics learning in high school. Jurnal Penelitian Pendidikan IPA, 8(2), 781–789.

Nguyen, T. P. L., Nguyen, T. H., & Tran, T. K. (2020). STEM education in secondary schools: Teachers’ perspective towards sustainable development. Sustainability, 12(21), 8865.

Nibbi, L., Chiaramonti, D., & Palchetti, E. (2019). Project BBChina: a new master program in three Chinese universities on bio-based circular economy; from fields to bioenergy, biofuel and bioproducts. Energy Procedia, 158, 1261–1266.

Nordin, N., & Samsudin, M. A. (2021). The effect of online project-based learning on students’ attitudes towards renewable energy. Mohd Ali Samsudin, Abdul Hadi Harun, Norfarah Nordin, Noor Hasyimah Haniza & Corrienna Abdul-Talib (2014). The Effect of Online Project-Based Learning on Students’ Attitudes towards Renewable Energy, Malaysian Journal of Distance Education, 16(2), 39–57.

Nova, D. A. O., Dwikoranto, D., & Lestari, N. A. (2021). Analisis persepsi siswa terhadap pembelajaran fisika berbasis ecopedagogy dengan metode daring selama pandemi COVID-19. ORBITA: Jurnal Kajian, Inovasi Dan Aplikasi Pendidikan Fisika, 7(1), 19–26.

Noviatika, R., Gunawan, G., & Rokhmat, J. (2019). Pengaruh Model pembelajaran berbasis masalah berbantuan mobile pocket book fisika terhadap kemampuan pemecahan masalah peserta didik. Jurnal Pendidikan Fisika Dan Teknologi, 5(2), 240–246.

Novita, R. R. (2023). Physics E-book with Augmented Reality to Improve Students’ Interest in Physics. JPI (Jurnal Pendidikan Indonesia), 12(1).

Ntona, E., Arabatzis, G., & Kyriakopoulos, G. L. (2015). Energy saving: Views and attitudes of students in secondary education. Renewable and Sustainable Energy Reviews, 46, 1–15.

Nurkhin, A., & Pramusinto, H. (2020). Problem-Based Learning Strategy: Its Impact on Students’ Critical and Creative Thinking Skills. European Journal of Educational Research, 9(3), 1141–1150.

Polya, G. (2004). How to Solve It: A New Aspect of Mathematical Method. Princeton university press.

Pongsakdi, N., Kajamies, A., Veermans, K., Lertola, K., Vauras, M., & Lehtinen, E. (2020). What makes mathematical word problem solving challenging? Exploring the roles of word problem characteristics, text comprehension, and arithmetic skills. ZDM, 52, 33–44.

Prahani, B. K., Rizki, I. A., Nisa, K., Citra, N. F., Alhusni, H. Z., & Wibowo, F. C. (2022). Implementation of online problem-based learning assisted by digital book with 3D animations to improve student’s physics problem-solving skills in magnetic field subject. JOTSE, 12(2), 379–396.

Prasistayanti, N. W. N., Santyasa, I. W., & Warpala, I. W. S. (2019). Pengaruh desain e-learning terhadap hasil belajar dan keterampilan berpikir kreatif siswa dalam mata pelajaran pemrograman pada siswa SMK. Kwangsan: Jurnal Teknologi Pendidikan, 7(2), 138–155.

Prastyo, D., & Wulandari, F. E. (2023). The Effect of Booklets Based on Project Based Learning on Solving Environmental Problems in Junior High Schools. Jurnal Penelitian Pendidikan IPA, 9(2), 698–705.

Pristianti, M. C., & Prahani, B. K. (2022). Profile of students’ physics problem solving skills and problem based learning implementation supported by website on gas kinetic theory. Jurnal Pendidikan Progresif, 12(1), 375–393.

Qomariyah, S., Darmayanti, R., Rosyidah, U., & Ayuwanti, I. (2023). Indicators and Essay Problem Grids on Three-Dimensional Material: Development of Instruments for Measuring High School Students’ Mathematical Problem-Solving Ability. JEMS: Jurnal Edukasi Matematika Dan Sains, 11(1), 261–274.

Qotrunnada, N. A. (2022). Analysis of the Difficulties of High School Students in Improving Problem Solving Ability in Physics Learning. International Journal of Current Educational Research, 1(1), 84–101.

Rahayu, I. D., Permanasari, A., & Heliawati, L. (2022). The Effectiveness of Socioscientific Issue-Based Petroleum Materials Integrated with The Elsmawar Website on Students’ Scientific Literacy. Journal of Innovation in Educational and Cultural Research, 3(2), 279–286.

Rahim, F. R., Suherman, D. S., & Muttaqiin, A. (2020). Exploring the effectiveness of e-book for students on learning material: A literature review. Journal of Physics: Conference Series, 1481(1). https://doi.org/10.1088/1742-6596/1481/1/012105

Raviv, L., Lupyan, G., & Green, S. C. (2022). How variability shapes learning and generalization. Trends in Cognitive Sciences.

Rini, E. F. S., & Aldila, F. T. (2023). Practicum Activity: Analysis of Science Process Skills and Students’ Critical Thinking Skills. Integrated Science Education Journal, 4(2), 54–61.

Rizki, I. A., Suprapto, N., & Hariyono, E. (2023). Designing Vertical Axis Wind Turbine Prototype as Future Renewable Energy Source in STEAM Learning.

Samadun, S., & Dwikoranto, D. (2022). Improvement of Student’s Critical Thinking Ability sin Physics Materials Through The Application of Problem-Based Learning. IJORER: International Journal of Recent Educational Research, 3(5), 534–545.

Saphira, H. V., & Prahani, B. K. (2022). Profile of senior high school students’ critical thinking skills and the need of implementation PBL model assisted by augmented reality book. Jurnal Pendidikan Sains Indonesia (Indonesian Journal of Science Education), 10(3), 579–591.

Schöbel, S. M., Janson, A., & Leimeister, J. M. (2023). Gamifying online training in management education to support emotional engagement and problem-solving skills. Journal of Management Education, 47(2), 166–203.

Schukajlow, S., Blomberg, J., Rellensmann, J., & Leopold, C. (2022). The role of strategy-based motivation in mathematical problem solving: The case of learner-generated drawings. Learning and Instruction, 80, 101561.

Senhora, F. V, Chi, H., Zhang, Y., Mirabella, L., Tang, T. L. E., & Paulino, G. H. (2022). Machine learning for topology optimization: Physics-based learning through an independent training strategy. Computer Methods in Applied Mechanics and Engineering, 398, 115116.

Setyani, N. S., Susilowati, L., Sholihah, Q., & Lenggono, K. A. (2021). Application of Electronic Problem-Based Learning (E-PBL) during the COVID-19 Pandemic in Entrepreneurial Attitude. Eurasian Journal of Educational Research, 95, 156–175.

Siagan, M. V, Saragih, S., & Sinaga, B. (2019). Development of Learning Materials Oriented on Problem-Based Learning Model to Improve Students’ Mathematical Problem Solving Ability and Metacognition Ability. International Electronic Journal of Mathematics Education, 14(2), 331–340.

Silamon, M. A., Roshayanti, F., & Siswanto, J. (2020). Profil Keterampilan Pemecahan Masalah Kinematika Gerak Lurus Pada Siswa Kelas X IPA SMA Negeri 2 Semarang. Jurnal Inovasi Dan Pembelajaran Fisika (JIPF), 7(1), 41–47.

Simanjuntak, M. P., Hutahaean, J., Marpaung, N., & Ramadhani, D. (2021). Effectiveness of Problem-Based Learning Combined with Computer Simulation on Students’ Problem-Solving and Creative Thinking Skills. International Journal of Instruction, 14(3), 519–534.

Soebagyo, J., Umam, K., Istikharoh, I., & Suhendri, H. (2022). An Analysis of Students’ Mathematical Problem-Solving Ability at Class VII Social Arithmetic Materials Based on Learning Styles. Formatif: Jurnal Ilmiah Pendidikan MIPA, 12(1).

Sroufe, R., & Ramos, D. P. (2015). Leveraging Collaborative, Thematic Problem-Based Learning to Integrate Curricula. Decision Sciences Journal of Innovative Education, 13(2), 151–176. https://doi.org/10.1111/dsji.12063

Sujarweni, V. W., & Utami, L. R. (2019). The master book of SPSS. Anak Hebat Indonesia.

Sumartini, T. S. (2016). Kemampuan Pemecahan Masalah Matematika dalam Menyelesaikan Soal Cerita Berdasarkan Langkah Polya. Jurnal Pendidikan Matematika STKIP Garut, 5(2), 1–7. https://scholar.googleusercontent.com/scholar?q=cache:jfDgJQUQWmcJ:scholar.google.com/+Peningkatan+Kemampuan+Pemecahan+Masalah+Matematis+Siswa+melalui+Pembelajaran+Berbasis+Masalah&hl=id&as_sdt=0,5

Surur, M., Triyono, T., & Handarini, D. (2016). Keefektifan Problem Solving Strategy (Pss) Untuk Meningkatkan Keterampilan Memecahkan Masalah Pada Siswa Smp. Jurnal Pendidikan: Teori, Penelitian, Dan Pengembangan, 1(11), 2211–2219. https://www.neliti.com/publications/210034/keefektifan-problem-solving-strategy-pss-untuk-meningkatkan-keterampilan-memecah

Susanto, T. T. D., Dwiyanti, P. B., Marini, A., Sagita, J., Safitri, D., & Soraya, E. (2022). E-Book with Problem Based Learning to Improve Student Critical Thinking in Science Learning at Elementary School. International Journal of Interactive Mobile Technologies (IJIM), 16(20), 4–17. https://doi.org/10.3991/ijim.v16i20.32951

Szabo, Z. K., Körtesi, P., Guncaga, J., Szabo, D., & Neag, R. (2020). Examples of problem-solving strategies in mathematics education supporting the sustainability of 21st-century skills. Sustainability, 12(23), 10113.

Taar, J., & Palojoki, P. (2022). Applying interthinking for learning 21st-century skills in home economics education. Learning, Culture and Social Interaction, 33, 100615.

Tozzi Jr, P., & Jo, J. H. (2017). A comparative analysis of renewable energy simulation tools: Performance simulation model vs. system optimization. Renewable and Sustainable Energy Reviews, 80, 390–398.

Uden, L., Sulaiman, F., & Lamun, R. F. (2022). Factors Influencing Students’ Attitudes and Readiness towards Active Online Learning in Physics. Education Sciences, 12(11), 746.

Ummah, I. K., & Yuliati, N. (2020). The Effect of Jumping Task Based on Creative Problem Solving on Students’ Problem Solving Ability. International Journal of Instruction, 13(1), 387–406.

Wang, M., Yu, R., & Hu, J. (2023). The relationship between social media-related factors and student collaborative problem-solving achievement: an HLM analysis of 37 countries. Education and Information Technologies, 1–19.

Wang, Y.-H. (2020). Integrating games, e-books and AR techniques to support project-based science learning. Educational Technology & Society, 23(3), 53–67.

Xu, E., Wang, W., & Wang, Q. (2023). The effectiveness of collaborative problem solving in promoting students’ critical thinking: A meta-analysis based on empirical literature. Humanities and Social Sciences Communications, 10(1), 1–11.

Yuriev, E., Naidu, S., Schembri, L. S., & Short, J. L. (2017). Scaffolding the development of problem-solving skills in chemistry: guiding novice students out of dead ends and false starts. Chemistry Education Research and Practice, 18(3), 486–504.

Zakeus, S. (2022). Peningkatan Kemampuan Komunikasi Matematis Siswa Melalui Penerapan Model Pembelajaran Problem Based Learning. Journal of Comprehensive Science (JCS), 1(4), 482–503.

Zhu, G., Su, X., Du, J., Chen, Q., Xiong, B., & Chiang, F.-K. (2023). A quasi-experimental study on the influence of different media scaffolds toward physics problem-solving processes. Interactive Learning Environments, 31(2), 980–993.

Zulyusri, Z., Elfira, I., Lufri, L., & Santosa, T. A. (2023). Literature Study: Utilization of the PjBL Model in Science Education to Improve Creativity and Critical Thinking Skills. Jurnal Penelitian Pendidikan IPA, 9(1), 133–143.