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All Journal SOSCIED Sciening : Science Learning Journal Charm Sains : Jurnal Pendidikan Fisika Lontar Physics Today
Lahope, Kenny Setiawan
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Education Environmental Science Physics Social Sciences

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Intensity of Artificial Intelligence (AI) Use for Physics Learning in High Schools Rende, Jeane Cornelda; Lahope, Kenny Setiawan
Lontar Physics Today Vol 4, No 3 (2025): November 2025
Publisher : Universitas PGRI Semarang

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Abstract

This study investigates the intensity of Artificial Intelligence utilization in Physics education at a public high school in Manado City, Indonesia. The research aimed to understand the patterns and extent of AI integration, as well as the influencing factors, through a qualitative case study approach. The methodology involved in-depth interviews, classroom observations, and document analysis with six Physics teachers, students, and school management selected via purposive sampling. Data were analyzed using Miles and Huberman's model and thematic analysis. Key parameters examined included the forms of AI usage, intensity levels (low, medium, high), frequency, depth of utilization, and both supporting (teacher digital competence, school policy support, student enthusiasm) and hindering factors (lack of formal pedagogical training, infrastructure limitations, cultural resistance). Important findings indicate that AI adoption is predominantly at a medium level, primarily utilizing interactive simulations like PhET Interactive Simulation for abstract concept visualization, which significantly enhances student engagement and comprehension. However, comprehensive AI integration for adaptive, personalized learning remains rare. While school facilities are generally supportive, teachers' digital readiness varies, and AI usage frequency averages one to two times per week, the depth of its application often remains instrumental rather than transformational. In conclusion, AI adoption in Physics learning is still nascent, not yet fully optimizing AI's potential as an adaptive intelligent learning system, largely due to variations in teacher competency, school policies, and infrastructure readiness.
INTERAKSI DEMOKRATIS LINTAS JENJANG MAHASISWA MELALUI PEMBELAJARAN TEMATIK-EKSPLORATIF-DEMOKRATIK DALAM BELAJAR FISIKA DI AIR TERJUN TUMIMPERAS Mulyono, Maulana; Palilingan, Rolles Nixon; Tumimomor, Farly Reynol; Lahope, Kenny Setiawan
SOSCIED Vol 7 No 1 (2024): SOSCIED - Juli 2024
Publisher : LPPM Politeknik Saint Paul Sorong

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jsoscied.v7i1.761

Abstract

The study is motivated by the importance of paying attention to democratic interaction among students in order to prepare them with the 21st-century competencies they need to possess. This research aims to understand the democratic interactions across different levels of students through Thematic-Explorative-Democratic Learning in physics at Tumimperas Waterfall. The research method used is descriptive qualitative, with the subjects of the study being two groups of students from the Physics Department at Manado State University. Data were collected through observation and peer assessment based on eight indicators of democratic interaction. Data were analyzed through data collecting, reduction, display, and classification. The results showed that students from various levels were able to interact democratically with scores ranging from good to very good. This democratic interaction aids in the development of critical thinking skills, collaboration, effective communication, and social responsibility. Thus, Thematic-Explorative-Democratic Learning at Tumimperas Waterfall can be considered an effective learning activity in developing 21st-century competencies in students
IMPLEMENTASI MODEL PROBLEM BASED LEARNING PADA MATERI GERAK MENGGELINDING TERHADAP PENINGKATAN HASIL BELAJAR PESERTA DIDIK Antameng, Johan Olden B.; Komansilan, Alfrits; Polii, Jefferson; Lahope, Kenny Setiawan
SOSCIED Vol 7 No 1 (2024): SOSCIED - Juli 2024
Publisher : LPPM Politeknik Saint Paul Sorong

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jsoscied.v7i1.763

Abstract

Implementation of Problem Based Learning Model on Rolling Motion Material to Improve Students' Learning Outcomes. Thesis. Department of Physics. Faculty of Mathematics and Earth Sciences. Tondano. 2024. The problem in this study is that physics learning, especially in rolling motion material on an inclined plane, is done theoretically without so that students lack understanding of the material and the use of an inappropriate learning model that has an impact on the average score of students less than sixty-five, in other words insufficient. This study aims to examine the improvement of student learning outcomes with a problem-based learning model. The population of this study amounted to 240 students of class XII SMA Negeri 2 Bitung with a sample of 1 class for the experimental class and 1 class as a control class, each of which amounted to 25 people. This research method is quantitative. Data in this study were collected using pretest-posttest questions. Based on the discussion presented in this study in the previous section, it can be concluded that there is an increase in the learning outcomes of students on rolling motion material on an inclined plane with the Problem Based Learning model at SMA Negeri 2 Bitung.
PEMBELAJARAN TEMATIK-EKSPLORATIF-DEMOKRATIS DALAM FISIKA MELALUI EKSPLORASI PENGALAMAN EMPIRIK MAHASISWA TENTANG AIR Muya, Angelika Birene; Silangen, Patricia Merdiana; Makahinda, Tineke; Tumangkeng, Jeane; Lahope, Kenny Setiawan
SOSCIED Vol 7 No 1 (2024): SOSCIED - Juli 2024
Publisher : LPPM Politeknik Saint Paul Sorong

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jsoscied.v7i1.764

Abstract

Thematic-Exploratory-Democratic Learning (TED-L) is an instructional strategy that encourages students to engage in high-level thinking through exploring objects around them and democratic interactions. The aim of this study is to investigate: 1) The outcomes of exploring the physics context-concepts from students' empirical experiences themed around water in TED learning, and 2) How students' democratic interactions contribute to exploring the physics context-concepts from empirical experiences in TED learning. This research employs interpretative qualitative research methodology and data analysis using Miles and Huberman's model. It is part of a collaborative research comprising 3 stages out of the 6 overall stages of TED Learning: 1) Building TED Attraction Literacy, 2) Object Exploration, 3) Exploring individual learning attitudes and democratic learning attitudes. The findings of this study are: 1) Examining empirical experiences leads to a process of high-level thinking formed as an attempt to solve problems. 2) Democratic interactions enhance students' creativity, increase analytical levels, and foster critical thinking among learners, as well as boost engagement in exchanging and adding new information related to physics concepts in exploring empirical experiences.
PENGEMBANGAN PEMBELAJARAN TED (THEMATIC-EXPLORATION-DEMOCRATIC) DALAM BELAJAR FISIKA PADA MATA KULIAH FISIKA LINGKUNGAN Marianus, M; Lahope, Kenny Setiawan
SOSCIED Vol 7 No 2 (2024): SOSCIED - November 2024
Publisher : LPPM Politeknik Saint Paul Sorong

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jsoscied.v7i2.851

Abstract

Thematic-Explorative-Democratic Learning (TED-L) merupakan strategi pembelajaran yang menekankan pada kegiatan belajar mental-personalitas secara utuh dalam mengeksplorasi objek dan informasi untuk merekonstruksi pengalaman empiris individu maupun kelompok. Dalam merekonstruksi pengalaman empiris pada pembelajaran TED, mahasiswa diarahkan untuk mampu merepresentasikan pengalaman dalam bentuk verbal, visual, dan matematis khususnya pada pembelajaran fisika. Dalam pembelajaran fisika dengan strategi pembelajaran TED pada Matakuliah Fisika Lingkungan diperlukan suatu bahan ajar yang memuat petunjuk-petunjuk yang dapat membantu mahasiswa untuk merepresentasikan pengalaman yang diamati. Penelitian ini bertujuan untuk mengetahui kelayakan dan kepraktisan bahan ajar TED. Proses pengembangan bahan ajar ini menggunakan model 4D jenis penelitian R&D. Penelitian ini dilaksanakan di Jurusan Fisika Fakultas Matematika, IPA, dan Kebumian Universitas Negeri Manado terhadap 25 mahasiswa. Hasil penelitian dilihat dari dua aspek yaitu aspek kelayakan dan kepraktisan bahan ajar yang telah dikembangkan. Hasil kelayakan diperoleh melalui penilaian tim ahli media dan materi dimana hasil skor penilaian media sebesar 80,55 dan skor penilaian materi sebesar 93,75 dan untuk data praktikalitas diperoleh menggunakan angket respon siswa dimana 87% siswa menyatakan sangat setuju terhadap penggunaan bahan ajar. Kesimpulan menyatakan bahwa bahan ajar yang dikembangkan valid dan praktis untuk digunakan dalam pembelajaran.
Upaya Meningkatkan Hasil Belajar Fisika Siswa SMP melalui Penerapan Model Inkuiri Terbimbing Rondonuwu, Anneke Tienneke; Lahope, Kenny Setiawan
SCIENING : Science Learning Journal Vol. 5 No. 1: Juni 2024
Publisher : Jurusan Pendidikan IPA FMIPAK Universitas Negeri Manado

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Abstract

Siswa dapat mengalami kegagalan dalam hasil belajar jika model pembelajaran yang dipilih tidak sesuai. Penelitian ini bertujuan untuk mengevaluasi tingkat efektivitas model pembelajaran inkuiri terbimbing dalam meningkatkan pemahaman siswa di tingkat Sekolah Menengah Pertama (SMP) kota Manado tentang mata pelajaran Fisika. Penelitian ini menggunakan pendekatan kuantitatif dan menggunakan desain eksperimen semu (quasi eksperimen) dan desain posttest. Penelitian ini melibatkan 60 siswa yang terbagi menjadi 2 kelompok, yaitu kelompok eksperimen, yang mengikuti pembelajaran dengan model inkuiri terbimbing, dan kelompok kontrol, yang menerima pembelajaran dengan model pembelajaran berbasis masalah. Hasil analisis uji-t menunjukkan adanya perbedaan yang signifikan dalam prestasi siswa antara kedua kelompok tersebut, menunjukkan bahwa pencapaian siswa di kelompok eksperimen tidak sebanding dengan pencapaian siswa di kelompok kontrol. Hasilnya menunjukkan bahwa model inkuiri terbimbing secara signifikan lebih berhasil dalam meningkatkan pemahaman siswa tentang fisika jika dibandingkan dengan pembelajaran berbasis masalah.
Effects of Integrating Deep Learning with a Project-Based Learning Model on Thermodynamics Learning Outcomes Makahinda, Tineke; Lahope, Kenny Setiawan; Kuron, Meidy Atina
Lontar Physics Today Vol 4, No 3 (2025): November 2025
Publisher : Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/lpt.v4i3.25521

Abstract

This study investigates the difference in Thermodynamics learning outcomes between students taught using a Project-Based Learning (PBL) model integrated with deep learning and those taught using the PBL model alone.. The research employed an experimental method with a quasi-experimental design, utilizing a Nonequivalent Pretest-Posttest Control Group Design. The study was conducted in the Physics Department of Manado State University for Physics Education and Physics programs during the Odd Semester of the 2025/2026 Academic Year. The research population included all active students from these programs, with a random sample of 40 students divided into an experimental class and a control class, each consisting of 20 students. Data were collected through essay-type tests, administered as pretests and posttests, and subsequently analyzed statistically using descriptive and inferential techniques with Python programming. The findings indicate that the experimental class, which implemented deep learning integrated with the Project Based Learning model, achieved a higher average Thermodynamics learning outcome (80.28) compared to the control class (72.35), demonstrating better data consistency (standard deviation of 7.93 versus 9.71). Shapiro-Wilk normality tests for both classes confirmed a normal distribution of data (p-value for experimental class is 0.3147 while control class is 0.0638), and Levene's homogeneity test confirmed homogeneous variances (p-value 0.2529). Furthermore, the independent sample t-test results showed a t-statistic of 2.8289 and a p-value of 0.0074, which is less than 0.05. This leads to the conclusion that there is a statistically significant difference in Thermodynamics learning outcomes between the experimental and control classes. These findings suggest that the integration of deep learning with the Project Based Learning model is effective in enhancing Thermodynamics learning outcomes.
Co-Authors Alfrie Musa Rampengan Alfrits Komansilan Antameng, Johan Olden B. Dj Tulandi Farly Reynol Tumimomor Jeane V. Tumangkeng Jeferson Polii Kuron, Meidy Atina M Marianus Marianus Marianus Mulyono, Maulana Muya, Angelika Birene Patricia Mardiana Silangen Rende, Jeane Cornelda Rolles Nixon Palilingan Rondonuwu, Anneke T Satyano W Mongan Silangen, Patricia Merdiana Sindim, Excelcis Deo Christianto Tineke Makahinda