Garuda - Garba Rujukan Digital

Murshed, Mazlena Binti

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Author-ID : 7616855

Chemistry Education Environmental Science Physics Other

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Character-based physics learning module through generative learning model: Student conceptual understanding Wahyuni, Bening; Zainuddin, Zainuddin; Misbah, Misbah; Murshed, Mazlena Binti
Journal of Environment and Sustainability Education Vol. 2 No. 1 (2024)
Publisher : Education and Development Research

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62672/joease.v2i1.15

One of the causes of students' low conceptual understanding is the lack of instructional materials with a composition that aids students in understanding concepts independently or during classroom learning. The aim of this research is to produce a character-based learning module, particularly emphasizing the virtues of honesty, valuing others' opinions, and caring, through a valid, practical, and effective generative learning model to enhance students' conceptual understanding. This study follows a research and development approach. The development design employs the ADDIE model, tested with 29 eleventh-grade science students at SMAN 6 Banjarmasin. Data collection involved validation sheets for the learning module, observations of lesson plan implementation, student response questionnaires, and learning outcome tests. The data were then analyzed qualitatively and quantitatively. The results show: (1) the developed character-based learning module with an average score of 2.9 is declared valid, (2) the module, assessed through lesson plan implementation and student response questionnaires, is considered practical, and (3) the developed character-based learning module is effective in improving students' conceptual understanding, yielding an N-gain of 0.65 categorized as moderate, with a noticeable difference in students' character achievement before and after the learning process. In conclusion, this study affirms that the character-based learning module with a generative learning model is deemed suitable for enhancing students' conceptual understanding.

Character-based physics learning module through generative learning model: Student conceptual understanding Wahyuni, Bening; Zainuddin, Zainuddin; Misbah, Misbah; Murshed, Mazlena Binti
Journal of Environment and Sustainability Education Vol. 2 No. 1 (2024)
Publisher : Education and Development Research

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62672/joease.v2i1.15

One of the causes of students' low conceptual understanding is the lack of instructional materials with a composition that aids students in understanding concepts independently or during classroom learning. The aim of this research is to produce a character-based learning module, particularly emphasizing the virtues of honesty, valuing others' opinions, and caring, through a valid, practical, and effective generative learning model to enhance students' conceptual understanding. This study follows a research and development approach. The development design employs the ADDIE model, tested with 29 eleventh-grade science students at SMAN 6 Banjarmasin. Data collection involved validation sheets for the learning module, observations of lesson plan implementation, student response questionnaires, and learning outcome tests. The data were then analyzed qualitatively and quantitatively. The results show: (1) the developed character-based learning module with an average score of 2.9 is declared valid, (2) the module, assessed through lesson plan implementation and student response questionnaires, is considered practical, and (3) the developed character-based learning module is effective in improving students' conceptual understanding, yielding an N-gain of 0.65 categorized as moderate, with a noticeable difference in students' character achievement before and after the learning process. In conclusion, this study affirms that the character-based learning module with a generative learning model is deemed suitable for enhancing students' conceptual understanding.

Trends and research patterns of blended learning in science education: A VOSviewer-based bibliometric analysis Mastuang, Mastuang; Misbah, Misbah; Arlinda, Rossy; Muhammad, Nurlaela; Harto, Muhdi; Qamariah, Qamariah; Murshed, Mazlena Binti
Journal of Environment and Sustainability Education Vol. 3 No. 4 (2025)
Publisher : Education and Development Research

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62672/joease.v3i4.67

Blended learning combines online and face-to-face, creating a dynamic and interactive learning environment. This article aims to provide a comprehensive bibliometric literature review on "blended learning in science learning". Articles found with the Scopus database. There are 100 out of 449 articles found in the Scopus database from 2020 to 2024 analyzed in this study. The selected references were then managed using reference management software, namely Mendeley. After managing the database, these studies classified and visualized them using VOSviewer software. The results of this study are that the distribution of authors who research topics related to blended learning in science learning is still dominated by the United States and Indonesia. The gap in this study shows the future agenda's direction: blended learning in science learning is very important to study. Overall, teaching and learning activities using blended learning in science learning tend to increase yearly. This is also needed for more inter-regional research collaborations involving researchers from Asia and other developing countries in certain areas. Overall, this review provides a good reference point for further research on "blended learning in science learning".

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