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All Journal Journal of Innovative Science Education Journal of Community Empowerment
Nursulistari, Siti
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Education

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Development of Gamified Interactive Learning Media for Thermal Concepts to Foster Students’ Conceptual Understanding and Creativity Nursulistari, Siti; Subali, Bambang; Widiyatmoko , Arif
Journal of Innovative Science Education Vol. 14 No. 1 (2025): April 2025
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jise.v14i1.22415

Abstract

Science materials at the junior high school level often pose challenges for students, particularly in understanding abstract concepts and differentiating between topics such as temperature, heat, and expansion. These difficulties contribute to low levels of conceptual understanding and limited student creativity. This study aims to develop and evaluate gamification-based interactive science media integrated with the discovery learning model to enhance students’ conceptual understanding and creativity. The study employed a Research and Development (R&D) approach using the ADDIE model and utilized a quasi-experimental design. The participants included 64 seventh-grade students from SMP Negeri 41 Semarang, divided into experimental (class VIIB) and control (class VIIE) groups. The validity assessment yielded high scores for both media (0.90) and material content (0.94). Practicality evaluations demonstrated strong approval from both students (82.97%) and teachers (88.33%). Effectiveness analysis revealed a significant increase in conceptual understanding (N-gain: 0.71, high category) and creativity (N-gain: 0.62, medium category) in the experimental group, while the control group showed lower gains (N-gain: 0.44 and 0.29, respectively). These results indicate that gamified interactive media combined with the discovery learning model is valid, practical, and effective in enhancing students’ conceptual understanding and creativity. This study highlights the potential of integrating gamification into interactive learning environments to foster deeper engagement and improved learning outcomes in science education at the junior high school level. The findings suggest that such innovative approaches can be widely adopted to support active learning and creativity development among students.
Improving The Digital Literacy of Science Teachers Through A STEM Approach Based on Artificial Intelligence to Realize Deep Learning Widiyatmoko, Arif; Fibriana, Fidia; Aji, Septiko; Wulandari, Tiara Dwi; Nursulistari, Siti; Mayanti, Alfiana Nur Rosita
Journal of Community Empowerment Vol. 5 No. 1 (2025): Journal of Community Empowerment
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jce.v5i1.28646

Abstract

Digital literacy is one of the important competencies for science teachers as educators in learning in the 21st century. Unfortunately, not every teacher has good mastery so training is needed to improve digital literacy. The purpose of this service is to improve the digital literacy of junior high school science teachers in Semarang City through AI-based STEM learning activities in deep learning science learning. The training method uses facilitation-based action learning which begins with the presentation of material by the speaker, science learning practices by integrating STEM, AI, deep learning, questions and answers and closing. The results of the study showed that there was an increase in the digital literacy of science teachers in Semarang City after attending the training. The presentation of materials by resource persons and case study-based practical activities on science learning with an AI-assisted STEM approach and applying the principles of deep learning mindful learning, meaningful learning, and joyful learning are able to improve teachers' mastery of digital literacy. Participants also gave positive responses to the feasibility of the training materials and presentation. This means that the implementation of training to improve the digital literacy of science teachers with AI-based STEM and deep learning has been carried out very well.
Co-Authors Aji, Septiko Arif Widiyatmoko, Arif Bambang Subali Fidia Fibriana Mayanti, Alfiana Nur Rosita Widiyatmoko , Arif Wulandari, Tiara Dwi