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Rahmat Perdana
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Schrödinger: Journal of Physics Education
ISSN : 27163229     EISSN : 27161587     DOI : https://doi.org/10.37251/sjpe
Core Subject : Education, Social,
Covers all the Schrödinger: Journal of Physics Education (SJPE) at the level of primary, secondary, senior, and higher education. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on Educational advancements and establishing new collaborations in these areas. Original research papers and state-of-the-art reviews are invited for publication in all areas of Schrödinger: Journal of Physics Education (SJPE). Topics of Interest include, but are not limited to the following: Physics Education Literacy Ethophysics-Based Learning Collaborative & Interactive In Physics Learning Learning Analysis for Physics Education Physics Education Management Systems STEM (Science, Technology, Engineering, Mathematics) in Physics Education Virtual-Based Learning In The Laboratory E-Learning And Multimedia For Physics Education Physics Teacher Evaluation Curriculum, Research, and Development for Physics Education Web-Based Tools For Physics Education Learning/Teaching Methodologies and Assessment in Physics Education Global Issues in Physics Education Games and Simulations in Physics Education Mobile/Ubiquitous Computing In Physics Education
Articles 271 Documents
Analisis Pemahaman Materi Gerak Lurus Pada Siswa Kelas X MIPA di SMA Negeri 1 Kerinci Sastra, Amril; Samsidar, Samsidar
Schrödinger: Journal of Physics Education Vol. 3 No. 3 (2022): September
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v3i3.509

Abstract

Tujuan Penelitian: Penelitian ini bertujuan untuk menganalisis pemahaman siswa kelas X MIPA di SMA Negeri 1 Kerinci pada mata pelajaran fisika materi gerak lurus. Metodologi: Rancangan penelitian yang digunakan adalah metode penelitian kuantitatif dimana penelitian ini menggunakan metode survei. Dianalisis dengan menggunakan statistika deskriptif. Pengumpulan data dilakukan melalui pemberian instrument, yaitu angket. Angket ini mempunyai 25 soal tes tentang materi Gerak Lurus dengan terdiri dari 5 butir pilihan jawaban. Hasil dari data angket diolah dengan menggunakan aplikasi software SPSS 23. Temuan Utama: Pemahaman siswa terkait konsep gerak lurus masih cenderung rendah. Hal ini dapat dilihat dari skor hasil belajar yang telah didapatkan dari pengisian angket hasil belajar yang terdiri dari 25 pertanyaan. Dilihat dari butir-butir pertanyaan yang telah dijawab, kebanykan siswa menjawab dengan jawaban yang tidak tepat. Kesimpulan dari penelitian ini yaitu Pemahaman siswa Kelas X SMA Negeri 1 Kerinci dikategorikan “Masih Rendah”. Karena apabila pemahaman siswa mengenai materi atau konsep gerak lurus sudah baik maka hasil yang didapatkan akan baik pula. Keterbaruan/Keaslian dari Penelitian: Mengevaluasi hasil belajar siswa dan berupaya mencari cara dalam meningkatkan pemahaman siswa pada materi gerak lurus.
Analisis Pemahaman Siswa pada Materi Hukum Newton di SMAN 6 Muaro Jambi Suryadi, Suryadi; Astuti, Yuli
Schrödinger: Journal of Physics Education Vol. 3 No. 4 (2022): December
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v3i4.510

Abstract

Tujuan Penelitian: Penelitian ini bertujuan untuk mengetahui peningkatan pemahaman konsep siswa tentang hukum newton. Metodologi: Bentuk penelitian yang digunakan dalam penelitian ini adalah penelitian deskriptif sederhana. Instrument penilitian berupa tes pemahaman konsep tentang materi Hukum Newton yang terdiri atas 25 soal pilihan ganda yang diesebar menggunakan link google form. Temuan Utama: Hasil penelitian diperoleh bahwa skor penguasaan konsep siswa yaitu 52,7%. Ditemukan persentase skor jawaban keseluruhan siswa yang mengalami kurang dalam memahami konsep hukum newton sebesar 48,3%. Ini berarti kemampuan siswa dalam memahami konsep sudah terbilang baik. Keterbaruan/Keaslian dari Penelitian: Mengevaluasi pemahaman konsep siswa pada materi hukum newton. Dengan mendapatkan hasil belajar siswa tentang pemahaman dalam materi hukum newton, maka hendaknya guru merancang pembelajaran yang lebih, guna memperbaiki pemahaman siswa dalam memahami konsep hingga mengembangkan pembelajaran ketingkat yang lebih tinggi
Development of Physics Modules with Science, Environment, Technology, and Society (SETS) Approaches to Motion and Force Material Angelia, Anggi; Muminov, Sarvar Q.; Obafemi, Deborah TA
Schrödinger: Journal of Physics Education Vol. 4 No. 3 (2023): September
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v4i3.694

Abstract

Purpose of the study: The goal to be achieved in this research is to produce a physics module with an approach (SETS) on motion and force material with valid, practical, and effective product quality. Methodology: This study uses Research and Development (R&D) development research, with a 4D development model developed by Thiagarajan Semmel and Semmel. This model consists of 4 stages of development, namely define, design, develop, disseminate, or adapted into a 4-P model, namely definition, planning, development, and deployment. The instruments used in this study were validity questionnaires, practicality questionnaires, and effectiveness questionnaires, which were analyzed using a Likert scale. The validity test includes the validity of a questionnaire by 3 lecturers. Furthermore, for the physics module with the validity SETS approach by 5 lecturers at UIN Imam Bonjol Padang. The practicality test of the physics module with the SETS approach can be seen from the practicality questionnaire sheet by 2 science educators and 29 class VIII students at Junior High School 1 Tigo Nagari. The effectiveness test included the effectiveness of the students' reading interest questionnaire on the physics module with the SETS approach which was completed by 32 class VIIIg students at Junior High School 1 Tigo Nagari. Main Findings: The result of this research is to produce physics modules with the SETS approach with valid, practical and effective product quality. The results of the validation of the physics module with the SETS approach in the material aspects by 2 validators obtained 81 results with very valid categories, the results of media validation by 2 validators were 98.88 with very valid categories, the results of language validation by 1 validator were 92 with very valid criteria, based on the three aspects of validity, the results of product validity are obtained, namely with very valid criteria. The results of product practicality by 2 educators were 97.14 with very practical criteria. The result of practicality by 29 class VIIIb students was 92.6 with very practical criteria. The test results for the effectiveness of use by 32 class VIIIg students were 91.24 with very effective criteria. It can be concluded that the physics module with the SETS approach to motion and force material for class VIII students meets the valid, practical, and effective criteria. Novelty/Originality of this study: produce physics modules with Approach (SETS) on motion and force material with valid, practical, and effective product quality.
Implementation of Learning with the Problem Posing Method to Increase Activeness and Learning Outcomes of Physics in the Material of Temperature and Heat Purnomo, M.; Aimran, Wan Mohm; Prasitpong, Singha
Schrödinger: Journal of Physics Education Vol. 4 No. 3 (2023): September
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v4i3.696

Abstract

Purpose of the study: This research aims to find out how physics learning using the Problem posing Method is implemented in high school and to find out whether learning physics using the Problem posing Method can increase the activeness and learning outcomes of high school students in physics. Methodology: This type of research is classroom action research carried out in 2 cycles. This research was conducted in high school. The subjects of this research were 31 students of class X high school. The research data is in the form of student activity and learning outcomes. Students' learning activity is known from the results of observation sheets, while students' learning outcomes are known from the results of evaluations carried out at the end of each cycle. Main Findings: The results showed that the active learning of students in cycle II showed an increase when compared to cycle I. The results showed learning with the Problem Posing model was preferred by students so that it was hoped that the teacher could apply the Problem Posing model as a variation in learning Physics. The limitation of the research which only applies the Problem Posing model to the material Temperature and Heat with a relatively short research time, it is hoped that further research can be carried out on other materials. Novelty/Originality of this study: The novelty of this research is that classroom action research was carried out to determine students' activeness in the learning process using a problem posing model specifically for learning physics on temperature and heat.
Increasing Students' Cognitive Absorption Through Remedial Learning in Physics Asis, Asmawati; Ching, Chin Peng; Suttiwan, Witsanu
Schrödinger: Journal of Physics Education Vol. 4 No. 3 (2023): September
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v4i3.709

Abstract

Purpose of the study: To determine whether there is an increase in junior high school students' absorption of physics subjects after participating in remedial learning. Methodology: This type of research is classroom action research. Junior high school students as subjects subjected to action in this study. The sampling technique in this study used purposive sampling. The instruments used in this study were diagnostic tests, final tests, observation guidelines. The collected data were analyzed using quantitative analysis. Main Findings: The application of remedial learning has been able to help students increase their cognitive absorption from one cycle to the next. Novelty/Originality of this study: The novelty of this research is that teachers can find out one of the learning methods to increase students' absorption and add insight into learning strategies.
The Effectiveness of the Reciprocal Teaching Learning Model Based on Multiple Intelligences (MI) on Student Learning Outcomes in Class VIII Vibration, Waves and Sound Material Saida, Lailatus; Auta, Ali
Schrödinger: Journal of Physics Education Vol. 4 No. 4 (2023): December
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v4i4.772

Abstract

Purpose of the study: This study aims to determine the effectiveness of the reciprocal teaching learning model based on multiple intelligences on the learning outcomes of students on vibration, waves and sound in class VIII Junior high school. Methodology: This research is experimental research conducted in junior high schools. The sample in this research was class VIII junior high school students. The sampling technique was carried out using a saturated sampling technique. Data collection uses the test method (multiple choice test) to obtain data about learning outcomes. Test the research hypothesis using the t-test. Main Findings: Based on t test calculations with a significance level of 5%, tcount = 3.01 while ttable = 1.994. Because tcount > ttable means that the average physics learning outcomes of students who are taught using the multiple intelligence-based reciprocal teaching learning model are effective on student learning outcomes. So, it can be concluded that learning using the reciprocal teaching learning model based on multiple intelligences on vibration, wave and sound material is effective on the learning outcomes of class VIII students in junior high schools. Novelty/Originality of this study: This research makes an important contribution in understanding how various learning strategies can be adapted to the individual needs and intelligence of students to improve their learning outcomes in complex material such as Waves, Vibrations and Sound.
Descriptive Study: Student Learning Motivation in Learning Physics of Renewable Energy Materials Handayani, Nuning Tri; Goodwell, Kaulu
Schrödinger: Journal of Physics Education Vol. 4 No. 4 (2023): December
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v4i4.775

Abstract

Purpose of the study: This research aims to describe student motivation in learning physics about renewable energy materials. Methodology: This type of research uses descriptive research with the data used being quantitative. Data collection used a physics learning motivation questionnaire instrument for students. The sampling technique in this study used purposive sampling with a total sample in this study of 60 high school students. Data analysis used descriptive statistics assisted by SPSS. Main Findings: Based on the results of student motivation questionnaire data obtained from Jambi City 2 High School and Triam Udom Suksa School, there were 60 respondents, namely an average score of 73.80. Next, the middle value (median) is 73. Then the minimum value is 56. And the maximum value is 94. The implication of this research is that by using a comprehensive and nuanced approach, this research aims to explain the factors that influence student motivation in certain academic domains. This investigation examines various elements such as curriculum design, teaching methodology, and the relevance of renewable energy materials in the learning process. Novelty/Originality of this study: The novelty of this research is that the descriptive study pioneers exploration into the previously uncharted area of student learning motivation in physics, specifically focusing on the renewable energy materials domain. This research can be a means to improve physics teaching in the classroom
The Effect of Implementing the Contextual Teaching Learning (CTL) Approach on the Formation of Students' Physics Behavior Ilyas, Ilyas; Kaynat, Hina; Salisu, Aminu
Schrödinger: Journal of Physics Education Vol. 4 No. 4 (2023): December
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v4i4.786

Abstract

Purpose of the study: This research aims to determine the effect of implementing the Contextual Teaching Learning (CTL) approach on the formation of junior high school students' physics behavior. Methodology: This research is quantitative research with associative causal type. The total research sample was 69 students with a sampling technique using purposive sampling. The instruments used in this research were questionnaires and interviews. The data analysis techniques used in this research are descriptive statistics and inferential statistics. Main Findings: Based on the results of statistical analysis using SPSS 21, it was found that there was an influence of the application of Contextual Teaching (CTL) on the formation of physics behavior in class VIII SMP students with an influence percentage of 42%. With the regression equation Y = 45.508 + 0.363X. This means that if the CTL approach is not used in the physics learning process, the student's physics behavior score will be 45.508. Then, for every 1% increase in the level of the CTL approach, the physics behavior of class VII middle school students will increase by 0.363.l. Novelty/Originality of this study: The findings of this research indicate that this approach in the teaching process is important to use as a means to increase the nuances of learning in the classroom to be more meaningful. The novelty of this research is that it is useful as a means of improving physics teaching and learning strategies in the classroom in order to shape students' positive behavior.
Development of Three Tier Online Test Diagnostic of Misconception for Topic Free Fall Motion Nisa, Etik Khoirun; Habibbulloh, Muhammad
Schrödinger: Journal of Physics Education Vol. 5 No. 2 (2024): June
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v5i2.797

Abstract

Purpose of the study: This study aimed to develop an online Three Tier Test Diagnostic of misconception in topic free fall motion. Methodology: This research is development research using a development model 4D by Thiagarajan (Define, Desain, Development, and Dissemination). However, the research is only limited to the Development stage because the research objectives have been achieved. The data collection instrument is a media expert validation questionnaire. The research data includes quantitative data in the form of expert validator evaluations and qualitative data in the form of comments and suggestions given by expert validators. Main Findings: The results showed that the product three tier online test diagnostic was feasible to use based on expert validation with a very feasible category. The resulting product has five item questions and consist of three tiers. The first tier is multiple choice questions, second is reason for answering question, and third tier is curiosity response index (CRI). Novelty/Originality of this study: The novelty of this research is uses an online test. This is expected to be able to support the effectiveness of further research by researchers.
Increasing Activity and Science Learning Outcomes Vibrations, Waves and Sound Matter Through STAD Model Atmoko, Sigit Setyo; Kumala, Dina Erawati; Gatsinzi, Patrick; Usman, Umar Shehu
Schrödinger: Journal of Physics Education Vol. 5 No. 1 (2024): March
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v5i1.880

Abstract

Purpose of the study: In this research aims to determine increasing activity and science learning outcomes vibrations, waves and sound matter through student teams-achievment divisions (STAD) model. Methodology: This research is Classroom Action Research implemented in three cycles, each cycle consisting of four stages namely planning, observation, observation and reflection. The subject of this research are students of class VIII B of Pabelan 2 Public Middle School consisting of 32 students of 16 male students and 16 female students. Research instruments include observation guide sheet, questions and documentation guidelines. Main Findings: The results of the research show that the student teams achievement divisions (STAD) learning model can increase the activity and learning outcomes of Class VIII B students at State Middle Schools as evidenced by the increase in student learning completeness in Cycle I, 37.5% of students have completed learning, in Cycle II, 81% of students have completed learning and Cycle III 99% of students completed their studies. Novelty/Originality of this study: This research contributes to research with a new foundation in understanding scientific concepts through an innovative approach using the student teams-achievement divisions (STAD) model. The unique findings highlight STAD's significant contribution in stimulating student engagement and increasing achievement of learning outcomes, bringing new nuances to science education research.