This study aims to look at the effect of science process skills on Jambi City Junior High School students' critical thinking ability on the density and reflection of the material in the mirror. This research method used was mixed method, while the design used was sequential explanatory. The study was conducted at Adhyaksa 1 Junior High School in Jambi City and Al-Jauharen Islamic junior high school in Jambi. The sampling technique used was cluster sampling, so that the sample of this study amounted to 58 students. The data collection instrument consisted of an observation sheet of science process skills, a test of critical thinking skills, and an interview. Data were analyzed using descriptive statistics and inferential statistics. Based on the results of the linear regression test that has been carried out, the t value is greater than the t table, it can be said that there is a significant influence between science process skills and critical thinking skills on the density material and the reflection on the mirror. Students who have low process skills will tend to have low critical thinking skills. Low science process skills and students' thinking abilities lead to low student learning outcomes.

Science Process Skills; Critical Thinking Ability; Science; Physics

Astalini, A., Kurniawan, D. A., & Putri, A. D. (2018). Identifikasi sikap implikasi sosial dari IPA, ketertarikan menambah waktu belajar IPA, dan ketertarikan berkarir dibidang IPA siswa SMP se-kabupaten Muaro Jambi. Tarbiyah: Jurnal Ilmiah Kependidikan, 7(2).

Triyanto, E., Anitah, S., & Suryani, N. (2013). Peran kepemimpinan kepala sekolah dalam pemanfaatan media pembelajaran sebagai upaya peningkatan kualitas proses pembelajaran. Jurnal Teknologi Pendidikan, 1(2): 226-238.

Astalini, A., Kurniawan, D. A., Perdana, R., & Kurniasari, D. (2018). Identification of student attitudes toward physics learning at Batanghari District high school. The Educational Review, USA, 2(9): 475-484.

Darmaji, D., Kurniawan, D. A., Astalini, A., & Nasih, N. R. (2019). Persepsi Mahasiswa pada Penuntun Praktikum Fisika Dasar II Berbasis Mobile Learning. Jurnal Pendidikan: Teori, Penelitian, dan Pengembangan, 4(4): 516-523.

Trisianawati, E., Djudin, T., & Setiawan, R. (2016). Pengaruh model pembelajaran kooperatif tipe jigsaw terhadap hasil belajar siswa pada materi vektor di kelas X SMA Negeri 1 Sanggau Ledo. Jurnal Penelitian Fisika dan Aplikasinya (JPFA), 6(2): 51-60.

Young, D. H., & Freedman, R. A. (2002). Fisika Universitas. Jakarta: Erlangga.

Le Myers, R. (2006). The Basic of Physics. London: Greenwood Press.

Wahyuni, S., Indrawati, I., Sudarti, S., & Suana, W. (2017). Developing science process skills and problem solving abilities based on outdoor learning in junior high school. Jurnal Pendidikan IPA Indonesia, 6(1).

Aydın, A. (2013). Representation of science process skills in the chemistry curricula for grades 10, 11 and 12/Turkey. International Journal of Education and Practice, 1(5): 51-63.

Karamustafaoğlu, S. (2011). Improving the science process skills ability of science student teachers using I diagrams. International Journal of Physics & Chemistry Education, 3(1): 26-38.

Budiyono, A., & Hartini, H. (2016). Pengaruh Model Pembelajaran Inkuiri Terbimbing terhadap Keterampilan Proses Sains Siswa SMA. Wacana Didaktika, 4(2): 141-149.

Manu, T. S. N., & Nomleni, F. T. (2018). Pengaruh Metode Pembelajaran Karya Kelompok Terhadap Keterampilan Proses Sains Dengan Kovariabel Kemampuan Berpikir Kreatif Siswa Pada Mata Pelajaran Biologi. Scholaria: Jurnal Pendidikan dan Kebudayaan, 8(2): 167-179.

Hutagalung, A. M. (2013). Efek Model Pembelajaran Inquiry Training Berbasis Media Komputer Terhadap Keterampilan Proses Sains Dan Kemampuan Berpikir Kritis Siswa (Doctoral dissertation, UNIMED).

Wulanningsih, S., Prayitno, B. A., & Probosar, R. (2012). Pengaruh model pembelajaran inkuiri terbimbing terhadap keterampilan proses sains ditinjau dari kemampuan akademik siswa SMA Negeri 5 Surakarta. Jurnal Pendidikan Biologi, 4(2): 33-43.

Yuliati, Y. (2016). Peningkatan keterampilan proses sains siswa sekolah dasar melalui model pembelajaran berbasis masalah. Jurnal Cakrawala Pendas, 2(2).

Darmaji, D., Kurniawan, D. A., Suryani, A., & Lestari, A. (2018). An Identification of Physics Pre-Service Teachers' Science Process Skills Through Science Process Skills-Based Practicum Guidebook. Jurnal Ilmiah Pendidikan Fisika Al-Biruni, 7(2): 239-245.

Hırça, N. (2017). The influence of hands on physics experiments on scientific Process skills according to prospective teachers’ experiences1. European Journal of Physics Education, 4(1): 6-14.

Darmaji, D., Kurniawan, D. A., & Lestari, A. (2018). Deskripsi keterampilan proses sains mahasiswa pendidikan fisika pada praktikum suhu dan kalor. Jurnal Riset dan Kajian Pendidikan Fisika, 5(2): 68-72.

Raj, R. G., & Devi, S. N. (2014). Science process skills and achievement in science among high school students. Scholarly Research Journal for Interdisciplinary Studies, 2(15): 2435-2443.

Chabalengula, V. M., Mumba, F., & Mbewe, S. (2012). How pre-service teachers’ understand and perform science process skills. Eurasia journal of mathematics, science and technology education, 8(3): 167-176.

Saido, G. A. M., Siraj, S., Dewitt, D., & Al-Amedy, O. S. (2018). Development of an instructional model for higher order thinking in science among secondary school students: a fuzzy Delphi approach. International Journal of Science Education, 40(8): 847-866.

Klein, G. (2011). Critical thoughts about critical thinking. Theoretical Issues in Ergonomics Science, 12(3): 210-224.

Nugraha, A. J., Suyitno, H., & Susilaningsih, E. (2017). Analisis kemampuan berpikir kritis ditinjau dari keterampilan proses sains dan motivasi belajar melalui model pbl. Journal of Primary Education, 6(1): 35-43.

Utami, B., Saputro, S., Ashadi, A., Masykuri, M., & Widoretno, S. (2017). Critical thinking skills profile of high school students in learning chemistry. In International Journal of Science and Applied Science: Conference Series (Vol. 1, No. 2, pp. 124-130).

Johan, H. (2013). Pengaruh SSCS problem solving untuk meningkatkan keterampilan berpikir kritis mahasiswa pada pembelajaran konsep listrik dinamis. Jurnal Pendidikan Matematika & IPA, 4(1): 13-18.

Ennis, R. H. (1985). A logical basis for measuring critical thinking skills. Educational leadership, 43(2): 44-48.

Shaw, A., Liu, O. L., Gu, L., Kardonova, E., Chirikov, I., Li, G., ... & Su, Q. (2019). Thinking critically about critical thinking: validating the Russian HEIghten® critical thinking assessment. Studies in Higher Education, 1-16.

Syafitri, R., Asyhar, R., & Asrial, A. (2016). Pengaruh Model Inquiry Training dan Berpikir Kritis Terhadap Kemampuan Berpikir Ilmiah Mahasiswa pada Mata Kuliah Kimia Dasar. Edu-Sains: Jurnal Pendidikan Matematika dan Ilmu Pengetahuan Alam, 5(1).

Ritdamaya, D., & Suhandi, A. (2016). Konstruksi instrumen tes keterampilan berpikir kritis terkait materi suhu dan kalor. Jurnal Penelitian & Pengembangan Pendidikan Fisika, 2(2): 87-96.

Tiruneh, D. T., De Cock, M., Weldeslassie, A. G., Elen, J., & Janssen, R. (2017). Measuring critical thinking in physics: Development and validation of a critical thinking test in electricity and magnetism. International Journal of Science and Mathematics Education, 15(4): 663-682.

Sundari, P. D., Parno, P., & Kusairi, S. (2018). Students’critical Thinking Ability In Integrated Learning Model. Jurnal Kependidikan: Penelitian Inovasi Pembelajaran, 2(2): 348-360.

Aminudin, A. H., Rusdiana, D., Samsudin, A., Hasanah, L., & Maknun, J. (2019, November). Measuring critical thinking skills of 11th grade students on temperature and heat. In Journal of Physics: Conference Series (Vol. 1280, No. 5, p. 052062). IOP Publishing.

Sugiyono. (2016). Statistika untuk Penelitian. Bandung: Alfabeta.

Creswell, J. W. (2013). Research design pendekatan kualitatif, kuantitatif, dan mixed. Yogyakarta: Pustaka Pelajar.

Machmud, M. (2005). Tuntunan Penulisan Tugas Akhir Berdasarkan Prinsip Dasar Penelitian Ilmiah. Jakarta: Erlangga.

Özgelen, S. (2012). Students’ science process skills within a cognitive domain framework. Eurasia Journal of Mathematics, Science and Technology Education, 8(4): 283-292.

Kurniawan, D. A., Lumbantoruan, A., & Samosir, S. C. (2019). Mobile Learning in Higher Education for The Industrial Revolution 4.0: Perception and Response of Physics Practicum. International Journal of Interactive Mobile Technologies, 13(9).

Ningsih, D. U., Santosa, S., & Sugiharto, B. (2011). Penerapan Strategi Pembelajaran think talk write Berbasis Kontekstual untuk Meningkatkan Keterampilan Proses Sains Siswa Kelas x-8 SMA Negeri 1 Sukoharjo Tahun Pelajaran 2010/2011. Jurnal Pendidikan Biologi, 3(2): 55-64.

Muhlisin, A., Susilo, H., Amin, M., & Rohman, F. (2016, June). Improving critical thinking skills of college students through RMS model for learning basic concepts in science. In Asia-Pacific Forum on Science Learning and Teaching (Vol. 17, No. 1, p. 12). The Education University of Hong Kong, Department of Science and Environmental Studies.

Prayitno, B. A., Corebima, D., Susilo, H., Zubaidah, S., & Ramli, M. (2017). Closing the science process skills gap between students with high and low level academic achievement. Journal of Baltic Science Education, 16(2): 266.

Çavdar, G., & Doe, S. (2012). Learning through writing: Teaching critical thinking skills in writing assignments. PS: Political Science & Politics, 45(2): 298-306.

Husein, S., Herayanti, L., & Gunawan, G. (2017). Pengaruh penggunaan multimedia interaktif terhadap penguasaan konsep dan keterampilan berpikir kritis siswa pada materi suhu dan kalor. Jurnal Pendidikan Fisika dan Teknologi, 1(3): 221-225.

Sinaga, E. K., Matondang, Z., & Sitompul, H. (2009). Statistika: Teori dan Aplikasi Pada Pendidikan. Jakarta: Yasasan Kita Menulis.

Jubilee, E. (2014). SPSS untuk Pemula. Jakarta: PT. Gramedia.

Puspita, A. R., Paidi, P., & Nurcahyo, H. (2017). Analisis Keterampilan Proses Sains LKPD Sel di SMA Negeri Kota Bekasi. Pend. Biologi-S1, 6(3): 164-170.