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Improvement of Learning Outcomes, Motivation, and Achievement of Students' Social Skills by Applying Student Teams Achievement Division Cooperative Learning Model through PhET Simulation Media Wirdatul Jannah; Evendi Evendi; Safrida Safrida; Suhrawardi Ilyas; Muhammad Syukri
Jurnal Penelitian Pendidikan IPA Vol. 7 No. 4 (2021): October
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v7i4.796

Abstract

This study aims to improve learning outcomes, motivation, and students' social skills by applying student teams' achievement division cooperative learning models through PhET simulation media. The method used in this study is quantitative. The research used is Quasi-Experimental. Instruments were used in the form of problems, questionnaires and, observation sheets. The results of the study data analysis prove that the average posttest of the experiment class obtained a score of 77.81, while the control class was 71.82, so that the results obtained in the experimental class were>75 or above from the KKM score that has been determined. Furthermore, the analysis of student motivation data proved an increase where the pretest score showed 60.5 and for the posttest results increased by a score of 66.56 and for the results of social skills learners showed an increase in each meeting in each indicator, which showed an excellent category. The conclusions in this study prove that the student teams achievement division cooperative learning model through PhET simulation media can improve learners' learning outcomes, motivation, and social skills
Analisis Tingkat Pemahaman Konsep Fisika Ditinjau dari Gaya Belajar dan Gaya Berpikir Siswa Nia Kurnia Devy; A. Halim; Muhammad Syukri; Yusrizal Yusrizal; Syahrun Nur; Ibnu Khaldun; Saminan Saminan
Jurnal Penelitian Pendidikan IPA Vol. 8 No. 4 (2022): October
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v8i4.1926

Abstract

There are three types of student learning styles used in the study, namely visual, auditory and kinesthetic and four types of thinking styles used in this study, namely Concrete Sequential, Abstract Sequential, Concrete Random, and Abstract Random. This study aims to analyze the level of understanding of physics concepts in terms of students' learning styles and thinking styles and examines learning styles and thinking styles that most influence the level of conceptual understanding. This study uses a quantitative approach, survey methods, and descriptive techniques. The population in this study were all students of SMAN 9 Banda Aceh, while the sample was 116 grade 2 students of SMA Negeri 9 Banda Aceh. Data analysis used descriptive statistical tests and data triangulation. The results of the analysis show that the level of understanding of students is at the second level, namely not understanding dominance compared to other levels of understanding concepts. Furthermore, it is obtained that a high kinesthetic learning style affects the level of understanding of concepts with a visual learning style. As for the thinking style, it was found that the concrete sequential thinking style was more dominant in influencing the level of conceptual understanding compared to other thinking styles
Investigation of Shallow Structures as The Pathway of Oil Seep in The Alue Punoe Village, Bireuen District, Aceh Province, Indonesia . Asrillah; Muhammad Syukri; . Marwan; Fuad Akbar
Aceh International Journal of Science and Technology Vol 5, No 2 (2016): August 2016
Publisher : Graduate Program of Syiah Kuala University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (651.966 KB) | DOI: 10.13170/aijst.5.2.4926

Abstract

Measurement of magnetic data has been done in the area of oil seeps in the village of the Alue Punoe, with 121 measurement points as a grid within 500 m x 500 m area where each grid is approximately in 250 m2. The total magnetic field measurement has been examined by using Proton Precession Magnetometer (PPM). Upward continuation correction was applied to obtain residual magnetic field anomaly. Residual magnetic field anomaly data are mapped using the Surfer software, while subsurface models are made using the Mag2DC software. Based on the models that have been sliced from the local magnetic anomalies along the cross section of A-B and C-D from which then obtained a shallow structure which is a fault whose an approximate depth from 30 to 100 meters and three stratified media. The stratified media of the study area are interpreted as an alluvial deposit, alternating sandstone and clay and igneous rocks. Interpretation of subsurface models shows that there exists a shallow structure assumed as a fault. Expected fault has an adjacent to the manifestations which are about 50 to 70 m. It strengthens the case that the fault is strongly related to as the pathways of oil seepsfrom possibly existed petroleum system below subsurface of unknown strata
Komponen TPACK yang Tepat untuk Mengatasi Kesalahpahaman pada Uji Inventarisasi Konsep Gaya A Halim; Meisy Adha Rizki; Hafnati Rahmatan; Muhammad Syukri; Agus Wahyuni; Yusrizal Yusrizal
Jurnal Penelitian Pendidikan IPA Vol 10 No 2 (2024): February
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v10i2.6622

Abstract

Misconception is one of the obstacles in the achievement of physics learning and must be immediately corrected so that there is no retention of misconceptions in subsequent knowledge. One way to prevent and reduce misconceptions that occur is with the teachers skill of Technological Pedagogical and Content Knowledge (TPACK). Teachers who integrate TPACK in learning can prevent misconceptions and find solutions to overcome the misconceptions. This study aims to determine the TPACK skill of teachers in overcoming misconceptions and the appropriate TPACK components to reduce misconceptions based on concepts on the three tier test of FCI (Force Concept Inventory). The research method used is mixed method with concurrent embedded design. The main data in this study is TPACK which is qualitative data and supporting data is students misconception which is quantitative data. The results showed a decrease in misconceptions after being given an understanding of the concept using the teacher's TPACK skill. The components used during the teacher's reduction of misconceptions based on the concepts in the FCI three tier test of FCI  are TPACK and PCK components. So it can be concluded that the teacher's TPACK skill can reduce the misconceptions that occur in the three tier test of FCI
meningkatkan keterampilan observasi, merencanakan percobaan, dan berkomunikasi berdasarkan pendekatan STEM Yuni Syahraini; Muhammad Syukri; Evendi; Elisa Kasli; Nurazidawati Mohamad Arsad; Elva Sesioria Putri
Jurnal Penelitian Pendidikan IPA Vol 10 No 4 (2024): April
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v10i4.6806

Abstract

Physics learning needs to emphasize science process skills (KPS) in students. In fact, from the results of a case study conducted at SMAN 2 Banda Aceh, it was found that the LKPD used by teachers was still conventional and there were no aspects of KPS. The purpose of this study was to determine the results of the application of physics LKPD based on the STEM approach in improving the KPS of high school students. This study used a quantitative approach of experimental type Non-Equivalent Control Group Design. The samples used in this study were X4 and X6 class students totaling seventy people taken by purposive sampling. The instrument in this study was the KPS test. Data analysis of this study used the average test, N-gain test and t-test. The results showed the average value of the experimental class KPS N-gain of 0.70 was in the high category and the control class N-gain of 0.63 was in the medium category. Based on the results of the t-test, it can be concluded that there are differences in the improvement of students' KPS in physics learning taught with the STEM approach and those taught using the direct learning model.