Garuda - Garba Rujukan Digital

The Effectiveness of G-Sites-Based Learning to Improve Students' Critical Thinking Skills Akhmad Iswardani; Budi Jatmiko; Eko Hariyono; Habibi; Muhammad Rey Dafa Ahmadi
Journal of Digitalization in Physics Education Vol. 1 No. 2 (2025): August
Publisher : Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/jdpe.v1i2.41960

Objective: This study aims to develop and evaluate the effectiveness of G-Sites-based learning media to improve students' critical thinking skills, particularly in understanding the physics topic of the electrical obstacle series. With the growing need for engaging and flexible digital learning solutions, this research addresses how interactive web-based media can enhance learning outcomes in science education. Method: The research employed a 3D development model consisting of Define, Design, and Develop. Learning needs were identified through student surveys, and the media was designed using G-Sites, which incorporated features such as videos, quizzes, and interactive simulations. The developed media was validated by experts and tested on 59 high school students in a limited classroom trial at SMAN 1 Ngimbang. Data were analyzed quantitatively using validity scores and gain scores from pre-and post-tests. Results: The validation results showed that the learning media was highly valid in terms of design, content, interactivity, and technical aspects, with scores exceeding 90%. Student learning outcomes improved significantly, as shown by increased post-test scores. Feedback indicated that students found the media engaging, accessible, and preferable compared to conventional methods. Novelty: This study introduces the innovative use of Google Sites as a free, accessible, and flexible platform for developing interactive physics learning media. Unlike many commercial platforms, G-Sites allows educators to independently create customized, multimedia-rich content tailored to their students' needs, representing a practical and scalable solution for digital learning in resource-constrained environments.

Integrating Earthquake Technologies into Physics Learning for Education for Sustainable Development: A Systematic Literature Review Hanan Zaki Alhusni; Riski Ramadani; Binar Kurnia Prahani; Titin Sunarti; Madlazim Madlazim; Muhammad Rey Dafa Ahmadi
Journal of Innovative Technology and Sustainability Education Vol. 1 No. 2 (2025): AUGUST
Publisher : Sekolah Tinggi Agama Islam Sabilul Muttaqin Mojokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63230/jitse.1.2.86

Objective: This study aims to synthesize current research on integrating earthquake-related technologies into physics education within the framework of Education for Sustainable Development (ESD). The objective is to examine how these technologies contribute to students' scientific literacy, critical thinking, and disaster preparedness, while also aligning with sustainability goals such as SDG 4 (Quality Education) and SDG 11 (Sustainable Cities and Communities). Method: A Systematic Literature Review (SLR) was conducted using the PRISMA 2020 framework. A total of 546 records were identified from databases, including Scopus, Web of Science, ERIC, and ScienceDirect, with 38 studies meeting the inclusion criteria after screening. Data were analyzed thematically and categorized into technological approaches, pedagogical strategies, and reported learning outcomes. Results: The findings demonstrate that earthquake technologies, including VR/AR simulations, shake tables, and real-time sensors, have a positive impact on student engagement, conceptual understanding, and disaster risk awareness. Pedagogical integration through inquiry-based, project-based, gamification, and problem-solving approaches enhances collaboration, critical thinking, and contextual application of physics concepts. However, challenges remain in terms of limited access to technology, insufficient teacher training, and the lack of longitudinal evidence. Novelty: Unlike previous studies that treated disaster education and physics pedagogy separately, this review bridges both domains under the ESD agenda. It highlights the transformative role of physics classrooms as laboratories for resilience and sustainability, providing a comprehensive framework for integrating disaster-related technologies into science education.

Installing Method and Subconscious Learning: A Sustainable English Learning Innovation Through Subconscious Knowledge Transfer in Kuanta Indonesia Ah. Zakki Fuad; Suparto Suparto; Nina Indriani; Jauharoti Alfin; Muhammad Rey Dafa Ahmadi
Journal of Current Studies in SDGs Vol. 2 No. 1 (2026): March
Publisher : Sekolah Tinggi Agama Islam Sabilul Muttaqin Mojokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63230/jocsis.2.1.141

Objective: This study aims to analyze the design, concept, and implementation of the Installing Method and Subconscious Learning in English learning at Kuanta Indonesia. The study also seeks to explore how subconscious-based learning can accelerate English mastery without traditional memorization and repetitive drills. Method: This research employed a descriptive qualitative approach conducted at Kuanta Indonesia as the research site. Data were collected through observations, interviews with master installers and learners, and documentation analysis. The data analysis process involved unitizing, recording, reducing, inferring, analyzing, and narrating to ensure data trustworthiness and comprehensive interpretation. Results: The findings reveal that the Installing Method emphasizes subconscious activation through alpha-wave learning conditions, allowing learners to absorb knowledge naturally and automatically. The learning process minimizes conscious memorization and analytical thinking, resulting in relaxed and efficient learning experiences. Students demonstrated rapid English mastery, improved confidence, and positive behavioral changes. The implementation includes structured learning programs, subconscious-based knowledge transfer, and rule-based learning environments that support automatic language acquisition. Novelty: This study introduces a new paradigm in English learning through subconscious installation rather than conventional learning methods. The Installing Method integrates subconscious brain activation, energy-based knowledge transfer, and behavioral transformation into a unified learning framework. This approach offers an innovative alternative for fast and effective English mastery and contributes to the development of transformative language learning methodologies.

Installing Method and Subconscious Learning: A Sustainable English Learning Innovation Through Subconscious Knowledge Transfer in Kuanta Indonesia Ah. Zakki Fuad; Suparto Suparto; Nina Indriani; Jauharoti Alfin; Muhammad Rey Dafa Ahmadi
Journal of Current Studies in SDGs Vol. 2 No. 1 (2026): March
Publisher : Sekolah Tinggi Agama Islam Sabilul Muttaqin Mojokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63230/jocsis.2.1.141

Objective: This study aims to analyze the design, concept, and implementation of the Installing Method and Subconscious Learning in English learning at Kuanta Indonesia. The study also seeks to explore how subconscious-based learning can accelerate English mastery without traditional memorization and repetitive drills. Method: This research employed a descriptive qualitative approach conducted at Kuanta Indonesia as the research site. Data were collected through observations, interviews with master installers and learners, and documentation analysis. The data analysis process involved unitizing, recording, reducing, inferring, analyzing, and narrating to ensure data trustworthiness and comprehensive interpretation. Results: The findings reveal that the Installing Method emphasizes subconscious activation through alpha-wave learning conditions, allowing learners to absorb knowledge naturally and automatically. The learning process minimizes conscious memorization and analytical thinking, resulting in relaxed and efficient learning experiences. Students demonstrated rapid English mastery, improved confidence, and positive behavioral changes. The implementation includes structured learning programs, subconscious-based knowledge transfer, and rule-based learning environments that support automatic language acquisition. Novelty: This study introduces a new paradigm in English learning through subconscious installation rather than conventional learning methods. The Installing Method integrates subconscious brain activation, energy-based knowledge transfer, and behavioral transformation into a unified learning framework. This approach offers an innovative alternative for fast and effective English mastery and contributes to the development of transformative language learning methodologies.

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