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JPF : JURNAL PENDIDIKAN FISIKA
Published by Universitas Muhammadiyah Makassar
ISSN : 23028939     EISSN : 25274015     DOI : -
Core Subject : Science, Education,
Education Physics
Jurnal Pendidikan Fisika merupakan jurnal yang memuat hasil-hasil penelitian pada bidang pendidikan fisika. Hasil Penelitian yang dimuat pada jurnal ini berasal dari tenaga pengajar, alumni pada Program Studi Pendidikan Fisika FKIP Universitas Muhammadiyah Makassar serta hasil penelitian dari guru-guru maupun dari peneliti-peneliti lainnya.
Arjuna Subject : -
Articles 6 Documents
 1 
Search results for , issue "Vol. 12 No. 3 (2024): PENDIDIKAN FISIKA" : 6 Documents clear
Improving Students' Computational Skills through the Implementation of Problem-Solving Laboratory Learning Models Nasruddin, Dindin; Melinda, Novia; Rochman, Chaerul
Jurnal Pendidikan Fisika Vol. 12 No. 3 (2024): PENDIDIKAN FISIKA
Publisher : Universitas Muhammadiyah Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26618/jpf.v12i3.10946

Abstract

In the digital era, computational thinking skills are essential for students to succeed in science education, including physics. However, traditional teaching methods often fail to cultivate these skills effectively. This study aimed to evaluate the effectiveness of the problem-solving laboratory learning model in enhancing students' computational thinking skills, specifically in alternating current electricity topics. The research employed a pre-experimental design with a one-group pre-test and post-test approach, involving 35 twelfth-grade students from a public high school in Banjar City, West Java, Indonesia. Data were collected using observation sheets to assess problem-solving laboratory implementation and computational thinking skill tests. The problem-solving laboratory model was implemented effectively, achieving an average implementation success rate of 78.4%. The analysis revealed a significant improvement in students' computational thinking skills, with an average N-gain score of 0.73, categorized as high. Among the computational thinking indicators, abstraction showed the highest improvement, followed by decomposition, data analysis, pattern recognition, and algorithmic thinking. These results suggest that the problem-solving laboratory model provides an effective framework for fostering computational thinking skills through hands-on problem-solving activities and structured learning processes. The study recommends integrating the problem-solving laboratory model into other physics topics and broader educational contexts to enhance students' 21st-century competencies. Future research should consider incorporating control groups and extending the scope to explore long-term impacts across diverse learning environments.
Status of Prospective Science Teachers’ Critical and Creative Thinking Skills in Energy and Its Integration Topics Hendratma Gunawan, Kadek Dwi; Liliasari, Liliasari; Kaniawati, Ida; Riandi, Riandi
Jurnal Pendidikan Fisika Vol. 12 No. 3 (2024): PENDIDIKAN FISIKA
Publisher : Universitas Muhammadiyah Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26618/jpf.v12i3.11521

Abstract

Developing critical and creative thinking skills is essential for prospective science teachers to address complex scientific problems and design effective integrated science learning. This study aimed to evaluate the critical and creative thinking skills of prospective science teachers, particularly on energy and its integration with other scientific topics. A total of 76 prospective science teachers from a university in East Java, Indonesia, participated in the study. Data were collected using essay tests, observation sheets, and interviews, with critical thinking indicators based on the Ennis framework and creative thinking indicators based on the Guilford framework. The data were analyzed descriptively. The results indicated that students' critical and creative thinking skills were generally in the low category across most indicators. In critical thinking, difficulties were observed in areas such as inference, advanced clarification, and strategy formulation. Similarly, in creative thinking, low scores were evident in fluency, flexibility, originality, and elaboration indicators. These findings highlight the urgent need for instructional innovations and targeted interventions to enhance critical and creative thinking skills among prospective science teachers. Strengthening these skills is crucial for preparing future educators capable of designing and implementing effective integrated science learning strategies. Further research is recommended to explore instructional models and scaffolding techniques that can better support the development of these competencies across diverse scientific topic.
Strategy for Utilizing Online Discussions and Online Practices on SPADA LMS to Improve Physics Learning in the Digital Era Iryani, Juniarti; Syam, Nurwahid
Jurnal Pendidikan Fisika Vol. 12 No. 3 (2024): PENDIDIKAN FISIKA
Publisher : Universitas Muhammadiyah Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26618/jpf.v12i3.15042

Abstract

The rapid development of digital learning platforms, particularly Learning Management Systems (LMS) such as SPADA, has significantly transformed physics education by enabling interactive and flexible learning environments. However, the effectiveness of integrating online discussions and exercises in enhancing students' comprehension of physics concepts remains underexplored. This study aimed to evaluate the impact of online discussions and exercises conducted through the SPADA LMS on students' understanding of physics concepts. A quantitative approach with a one-group pre-test and post-test experimental design was employed, involving 18 students enrolled in a physics course. Data were collected using questionnaires, pre-tests, post-tests, and interviews. The results revealed a substantial improvement in students' comprehension, with the average post-test score (75.18) significantly exceeding the pre-test score (47.75). Students reported increased engagement, better conceptual understanding, and improved problem-solving skills through active participation in online discussions and structured exercises. However, challenges such as technical issues, including unstable internet connectivity, occasionally disrupted participation. Despite these obstacles, the integration of online discussions and exercises through SPADA LMS proved to be an effective strategy for enhancing students' comprehension of physics concepts and fostering a collaborative learning environment. This study highlights the potential of LMS platforms as essential tools for advancing digital education, with implications for improving instructional design and promoting interactive learning experiences in physics education. Future research should explore the integration of multimedia tools and adaptive learning features to further optimize LMS-based instruction in physics.
Perceptions of the Use of EveryCircuit-Based Virtual Laboratory on Dynamic Electricity Material Hajar, Siti; Akbar, Muhammad; Silaban, Adeline; G. D Lasmono S., Paulus
Jurnal Pendidikan Fisika Vol. 12 No. 3 (2024): PENDIDIKAN FISIKA
Publisher : Universitas Muhammadiyah Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26618/jpf.v12i3.15236

Abstract

The integration of virtual laboratories has become an innovative solution for enhancing physics education, particularly in addressing challenges related to limited access to physical laboratory resources. This study aims to investigate the perceptions of physics education students at Cenderawasih University regarding the use of EveryCircuit-based virtual laboratories in learning dynamic electricity concepts. A quantitative descriptive approach was employed, with data collected through an online questionnaire distributed to 16 students. The questionnaire assessed three key aspects: material comprehension, usability of the EveryCircuit application, and students’ motivation and skills. The results revealed that 42.50% of students agreed that the EveryCircuit-based virtual laboratory improved their understanding of dynamic electricity concepts, while 46.87% agreed on its usability, and 43.75% reported enhanced motivation and skills. Despite positive responses, some challenges emerged, including limited proficiency in using EveryCircuit and occasional technical barriers such as unstable internet connections. Overall, the findings suggest that EveryCircuit-based virtual laboratories offer an effective alternative for teaching dynamic electricity, promoting a more interactive and accessible learning environment. The study recommends further research to address technical challenges and improve training on the use of virtual laboratory tools. Additionally, incorporating complementary digital resources and hands-on guidance could enhance the overall effectiveness of virtual laboratory implementation in physics education.
Analysis of Students' Critical Thinking Abilities in Physics Learning: A Case Study at SMAN 5 Sidrap Prabayanti, Eka; Usman, Usman; Khaeruddin, Khaeruddin; Setiawan, Trisno
Jurnal Pendidikan Fisika Vol. 12 No. 3 (2024): PENDIDIKAN FISIKA
Publisher : Universitas Muhammadiyah Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26618/jpf.v12i3.15317

Abstract

Critical thinking is one of the essential skills required of students in the 21st century. This research aims to provide an overview of students' critical thinking skills at in high school while studying the concept of Newton's Laws. Critical thinking skills refer to the cognitive processes employed by students to analyze and evaluate information effectively, enabling sound decision-making. The research method used is a descriptive-quantitative approach, involving a population of 130 students and a purposive sample of 60 students. Data were collected using a critical thinking test comprising 31 multiple-choice questions, addressing four indicators: interpretation, analysis, evaluation, and inference. The result of the study show that students' performance on the interpretation indicator predominantly fell into the low category, with 53.33%. Critical thinking skills for the analytical indicator were similarly low, at 38.33%. Critical thinking skills for evaluation were also categorized as low, at 43.33%. Meanwhile, critical thinking skills for inference were slightly better, being in the medium category at 46.67%. In general, students' critical thinking abilities at SMAN 5 Sidrap were primarily low, with 60% of students falling into this category. One of the factors causing students' poor critical thinking skills is the infrequent exposure to exercises designed to measure these skills. Therefore, implementing learning models that actively enhance critical thinking skills is essential.
Optics Learning Transformation through Project-Based Learning: Enhancing Scientific Abilities and Affective Learning Outcomes in Students with the Pinhole Camera Project Fadilah, Nur; Nurlaela, Ai; Romadhon, Dzikri Rahmat
Jurnal Pendidikan Fisika Vol. 12 No. 3 (2024): PENDIDIKAN FISIKA
Publisher : Universitas Muhammadiyah Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26618/jpf.v12i3.15358

Abstract

In physics education, the topic of optics requires a thorough and detailed understanding due to its challenging and intangible nature. To help students learn physics through practice, it is necessary to enhance their scientific abilities. Additionally, learning outcomes serve as a benchmark for success in education. In this context, project-based learning is chosen as the instructional model for presenting optics material in the classroom, since several studies have found this model to be effective in teaching. This research aims to measure the improvement of scientific abilities and affective learning outcomes of students in the field of physics, specifically the topic of optics. The quasi-experimental design method was employed in this study. The research sample comprised 11th-grade science students divided into two groups: the control group using which employed an inquiry-based learning model and the experimental group which utilized a combination of inquiry-based learning and project-based learning. The final project for the applied teaching model involved a pinhole camera. Data was gathered using observation sheets and questionnaires and subsequently analyzed using non-parametric tests (Mann-Whitney U and Wilcoxon). The data analysis results revealed a significant value (<0.001), demonstrating that the project-based learning model effectively enhanced students’ scientific abilities and affective learning outcomes, highlighting marked improvements in the experimental class compared to the control class. Additionally, the project-based learning model proved effective in engaging students actively, creating a more effective and interactive learning experience. Students also expressed greater interest in physics, as lessons incorporated practical activities rather than solely focusing on theoretical concepts.

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