This study aims to determine the profile of students' problem-solving skills and the implementation of free inquiry models in high school. This type of research conducted using preliminary research methods with data collection techniques in the form of written tests filled out by students, student interview questionnaires, and teacher interview questionnaires. The data obtained were analyzed descriptively qualitatively. The study was conducted on 30 students of class XII Science 5 of Senior High School 1 Driyorejo. The results showed that only a few students used the strategy of problem-solving skills in solving Dynamic Electric problems. Of all students studied, 16 students had moderate category problem-solving skills ranging from 1.00-1.99, and 14 students had low category problem-solving skills with a range of 0.00-0.99. The lowest problem-solving skills criteria are at point C (conceptualize the strategy). So it can be concluded that the implementation of a free inquiry learning model assisted by virtual laboratories (PhET) in schools does not optimally cause students to be inactive in class so that the problem-solving skills of students are not in the high category.

Afifah, R., Masjkur, K., & Sutarman. (2014). Pengaruh pembelajaran guided inquiry berbantuan PhET (GIBP) terhadap kemampuan berpikir tingkat tinggi dan tanggung jawab siswa kelas xi ipa pada materi teori kinetik gas. Jurnal Pendidikan Fisika Universitas Negeri Malang, 2(1), 4–6.

Asyhar, R. (2012). Kreatif Mengembangkan Media Pembelajaran. Jakarta: Referensi.

Azis, A., & Yusuf, I. (2013). Aktivitas dan Persepsi Peserta Didik dalam Implementasi Laboratorium Virtual pada Materi Fisika Modern di SMA. Berkala Fisika Indonesia, 5(2), 37–42.

Bogard, T., Liu, M., & Chiang, Y. V. (2013). Thresholds of knowledge development in complex problem solving: A multiple-case study of advanced learner’s cognitive processes. Educational Technology Research and Development, 61(3), 465–503.

Ceberiol, M., Almudi, J. S., & Franco, A. (2016). Design and application of interactive simulations in problem-solving in university-level physics education. Journal of Science Education and Technology, 25(4), 590–609.

Chang, Y. C. (2010). Does problem-solving = prior knowledge + reasoning skills in earth science? An exploratory study. Research in Science Education, 40(2), 103–116.

Daesang, K., K, D.-J., & Woo-Hyung, W. (2013). Cognitive Synergy in Multimedia Learning. International Education Studies, 6(4), 76–84.

Darrah, M., Humbert, R., Finstein, J., Simon, M., & Hopkins, J. (2014). Are virtual labs as effective as hands-on labs for undergraduate physics? A comparative study at two major universities. Journal of Science Education and Technology, 23(3), 803–814.

Debowska, E., Girwidz, R., Greczyło, T., Kohnle, A., Mason, B., Mathelitsch, L., … Silva, J. (2013). Report and recommendations on multimedia materials for teaching and learning electricity and magnetism. Eur. J. Phys, 34 L47–L54.

Docktor, J. L., Dornfeld, J., Frodermann, E., Heller, K. H., L., J., KA, Y., & J. (2016). Assessing student written problem solutions: a problem-solving rubric with application to introductory physics. Physical Review Physics Education Research, 12(1), 1–18.

Docktor, J. L., & Mestre, J. P. (2014). Synthesis of discipline-based education research in physics. Physical Review Special Topics-Physics Education Research, 10(2).

Fathiah, F., Kaniawati, I., & Utari, S. (2015). Analisis didaktik pembelajaran yang dapat meningkatkan korelasi antara pemahaman konsep dan kemampuan pemecahan masalah siswa SMA pada materi fluida dinamis. Jurnal Penelitian & Pengembangan Pendidikan Fisika, 1(1), 111–138.

Fitriyani, R. V, Supeno, S., & Maryani, M. (2019). Pengaruh LKS kolaboratif pada model pembelajaran berbasis masalah terhadap keterampilan pemecahan masalah fisika siswa SMA. Berkala Ilmiah Pendidikan Fisika, 7(2), 71–81.

Gok, T. (2015). An investigation of student’s performance after peer instruction with stepwise problem-solving strategies. International Journal of Science and Mathematics Education, 13(3), 561–582.

Habibbulloh, M., Jatmiko, B., & Widodo, W. (2017). Pengembangan perangkat pembelajaran model guided discovery berbasis lab virtual untuk mereduksi miskonsepsi siswa smk topik efek fotolistrik. Jurnal Penelitian Fisika Dan Aplikasinya, 7(1), 27–43.

Hamruni. (2012). Strategi Pembelajaran. Yogyakarta: Insan Madani.

Hardianti, T., & Kuswanto, H. (2017). The difference between the level of inquiry: Process Skill Improvement at senior high school in Indonesia. International Journal of Instruction, 10(2), 119–130.

Hatimah, H., Zainuddin, Z., & Mahardika, A. I. (2015). Komparasi Penggunaan Media Animasi dengan Media Slide terhadap Hasil Belajar IPA Siswa Kelas VII di SMP Negeri 15 Banjarmasin. Berkala Ilmiah Pendidikan Fisika, 3(1), 66–73.

Hidayat, R., Hakim, L., & Lia, L. (2019). pengaruh model guided discovery learning berbantuan media simulasi phet terhadap pemahaman konsep fisika siswa. Berkala Ilmiah Pendidikan Fisika, 7(2), 97–104.

Hull, M. M., Kuo, E., Gupta, A., & Elby, A. (2013). Problem-solving rubrics revisited: Attending to the blending of informal conceptual and formal mathematical reasoning. Physics Review Special Topics-Physics Education Research, 9, 10105.

Ibrahim, B., & Rebello, N. S. (2012). Representational task format and problem-solving strategies in kinematics and work. Physics Review Special Topics-Physics Education Research, 8(1), 0101261–01012619.

Khaerunnisak, K. (2018). Peningkatan pemahaman konsep dan motivasi belajar siswa melalui simulasi physic education technology (PhET. Jurnal Penelitian Pendidikan IPA, 4(2), 7–12.

Kock, Z., Taconis, R., & Bolhuis, S. (2014). Creating a culture of inquiry in the classroom while fostering an understanding of theoretical concepts in direct current electric circuits: A balanced approach. International Journal of Science and Mathematics of Physics, 13, 45–69.

Lia, L. (2015). Multimedia interaktif sebagai salah satu alternatif pembelajaran dalam bidang ilmu pendidikan sains. Jurnal Inovasi Dan Pembelajaran Fisika, 2(2), 132–140.

Maesaroh, A., Sinon, I. L. S., & Yusuf, I. (2016). Pengembangan Perangkat Pembelajaran Fisika Berbasis Multimedia Interaktif pada Materi Gelombang di SMA Negeri 1 Manokwari. Jurnal Pancaran Pendidikan, 5(2), 77–90.

Mahanta, A., & Sarma, K. K. (2012). Online Resource and ICT-Aided Virtual Laboratory Setup. Inter-National Journal of Computer Applications, 52(6), 44–48.

Mahyuddin, R. S., Wati, M., & Misbah, M. (2017). Pengembangan Media Pembelajaran Fisika Berbasis Zoomable Presentation Berbantuan Software Prezi Pada Pokok Bahasan Listrik Dinamis Di SMAN 1 Simpang Empat. Berkala Ilmiah Pendidikan Fisika, 5(2), 229–240.

Markawi, N. (2013). Pengaruh keterampilan proses sains, penalaran, dan pemecahan masalah terhadap hasil belajar fisika. Jurnal Formatif, 3(1), 11–25.

Mason, A. J., & Singh, C. (2016). Surveying college introductory physics student attitudes and approaches to problem-solving. European Journal of Physics, 37(5), 1–23.

Nikat, R. F. (2018). The evaluation of physics students’ problem-solving ability through MAUVE strategy (magnitude, answer, units, variables, and equation. International Journal of Social Sciences, 3(3), 1234–1251.

Raihanah, S., Susilowati, & Salam, A. (2019). Increasing students’ activity and learning outcomes through PhET assisted guided discovery model. Berkala Ilmiah Pendidikan Fisika, 7(2), 123–133.

Riantoni, C., Yuliati, L., Mufti, N., & Nehru. (2017). The problem-solving approach in electrical energy and power on students as physics teacher candidates. Indonesian Journal of Science Education, 6(1), 55–62.

Sagala, N. L., Rahmatsyah, R., & Simanjuntak, M. P. (2017). The influence of the problem-based learning model on the scientific process skill and problem-solving ability of the student. Journal of Research & Method in Education, 7(4), 1–9.

Salam, A., Miriam, S., & Misbah, M. (2017). Pembelajaran fisika berbasis learner autonomy dengan metode pemecahan masalah pada topik gelombang. Jurnal Sains Dan Pendidikan Fisika, 13(3), 231–237.

Sayyadi, M., Hidayat, A., & Muhardjito. (2016). Pengaruh strategi pembelajaran inkuiri terbimbing dan terhadap kemampuan pemecahan masalah fisika pada materi suhu dan kalor dilihat dari kemampuan awal siswa. Jurnal Inspirasi Pendidikan Universitas Kanjuruhan Malang, 6(2), 866–874.

Sitika, L. M., Muharjito, M., & Diantoro, M. (2015). Pengaruh problem based learning (PBL) berbasis guided inquiry (GI) terhadap kemampuan pemecahan masalah fisika ditinjau dari kerja ilmiah. In Prosiding Pertemuan Ilmiah XXIXHFI Jateng & DIY (pp. 395–398).

Smith, D. V, & Kampen, P. V. (2011). Teaching electric circuits with multiple batteries: A qualitative approach. Physics Review Special Topics-Physics Education Research, 7(2), 01011101–01011010.

Soderstrorm, T., From, J., Lovqvist, J., & Tornquist, A. (2011). From distance to online education: Educational management in the 21st century. Annual Conference Dublin.

Stetetzer, M., Kampen, P., & Shaffer, P. S. (2013). New insights into student understanding of complete circuits and the conservation of current. American Journal of Physics, 81(2), 134–143.

Syaifulloh, R. B., & Jatmiko, B. (2014). Penerapan pembelajaran dengan model guided discovery dengan lab virtual PhET untuk meningkatkan hasil belajar siswa kelas XI di SMAN 1 Tuban pada pokok bahasan teori kinetik gas. Jurnal Inovasi Pendidikan (JIPF, 03(02), 174–179.

Teodorescu, R., Bennhold, C., Feldman, G., & Medsker, L. (2013). New approach to analyzing physics problems: A taxonomy of introductory physics problems. The American Physical Society, 9(1).

Thersia, V., Arifuddin, M., & Misbah, M. (2019). Meningkatkan kemampuan pemecahan masalah melalui pendekatan somatis auditori visual intelektual (SAVI) dengan model pengajaran langsung. Berkala Ilmiah Pendidikan Fisika, 7(01).

Trianto. (2011). Model-model pembelajaran inovatif berorientasi konstruktivistik. Jakarta: Prestasi Pustaka.

Wenning, C. J. (2011). The Levels of Inquiry Model of Science Teaching. Journal of Physics Teacher Education Online, 6(2), 8–16.

Wijayanto. (2011). Pembelajaran sains untuk mengembangkan karakter unggul. In Sains National Seminar. Semarang.

Yazid, M. M., & Suprapto, N. (2018). Penerapan model pembelajaran inkuiri terbimbing untuk melatihkan kemampuan pemecahan masalah. Jurnal Inovasi Pendidikan Fisika, 07(02), 246–250.

Yusuf, I., & Widyaningsih, S. W. (2018). Implementasi Pembelajaran Fisika Berbasis Laboratorium Virtual terhadap Keterampilan Proses Sains dan Persepsi Mahasiswa. Berkala Ilmiah Pendidikan Fisika, 6(1), 18–28.

Zacharia, C. Z., & Jong, D. T. (2014). One specific advantage for virtual laboratories that may support the acquisition of conceptual knowledge is that reality can be adapted to serve the learning process, reality can be simplified by taking out details. Cognition and Instruction, 32(2), 101–158.

Zainuddin, Z., Hasanah, A. R., Salam, M. A., Misbah, M., & Mahtari, S. (2019). Developing the interactive multimedia in physics learning. Journal of Physics: Conference Series, 1171(1).