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All Journal International Journal of Essential Competencies in Education International Journal of Ethnoscience and Technology in Education
Rijal, Khaerul
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Education Mathematics Other

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Surmounting Obstacles in STEM Education: An In-depth Analysis of Literature Paving the Way for Proficient Pedagogy in STEM Learning Salvetti, Fernando; Rijal, Khaerul; Owusu-Darko, Isaac; Prayogi, Saiful
International Journal of Essential Competencies in Education Vol. 2 No. 2: December 2023
Publisher : Lembaga Penelitian dan Pemberdayaan Masyarakat (LITPAM)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/ijece.v2i2.1614

Abstract

The modern educational system has recognized the significance of STEM as a vital component of students' preparation for a promising future. Consequently, there is a need for comprehensive research in STEM education, encompassing an understanding of its context, challenges, and strategies to overcome these obstacles. Ongoing research continues to focus on developing coherent studies in this area, particularly emphasizing effective STEM pedagogy, which has proven to positively impact students' learning outcomes. However, despite its potential, STEM education faces several challenges that could impede its progress. In the scope of this study, a thorough examination revealed at least six key challenges confronting, these challenges encompass: pedagogical challenges, curriculum-related issues, structural complexities, student apprehensions, assessment concerns, and the critical need for teacher support. These challenges, along with proposed solutions, are discussed in-depth in this article. It is worth noting that pedagogical challenges hold paramount importance, as teachers play a pivotal role in implementing successful STEM education in schools. As such, this article delves into various effective pedagogical aspects that can facilitate the advancement of STEM education and foster enhanced learning experiences for students. Several key aspects contribute to effective pedagogy in STEM education and learning, including: (a) cultivating an innovative learning environment that nurtures inquiry, experimentation, and critical thinking; (b) utilizing a diverse range of authentic learning methods and relevant educational resources; (c) facilitating a collaborative learning environment that encourages teamwork and knowledge sharing; (d) creating an inclusive learning environment that accommodates the diverse needs of students; and (e) encouraging continuous reflection on and improvement of teaching practices to optimize learning outcomes.
Science Learning in the Context of 'Indigenous Knowledge' for Sustainable Development Yazidi, Rachid El; Rijal, Khaerul
International Journal of Ethnoscience and Technology in Education Vol. 1 No. 1 (2024): March
Publisher : Faculty of Engineering and Applied Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33394/ijete.v1i1.10880

Abstract

This study investigates the integration of Indigenous Knowledge (IK) into science education as a means to foster sustainable development among high school students. Through a qualitative descriptive approach, involving semi-structured interviews with 20 participants in Morocco, the research explores the impact of IK on enhancing students' understanding of local ecosystems, promoting interest in interdisciplinary studies, and contributing to cognitive and personal growth towards sustainable thinking. Findings indicate that incorporating IK into science curricula significantly enriches students' learning experiences by bridging the gap between traditional wisdom and scientific inquiry, thus making science education more relevant and engaging. This approach not only deepens students' appreciation for cultural diversity and environmental stewardship but also encourages a more holistic understanding of science and its application to global challenges such as climate change and biodiversity conservation. The study highlights the educational value of integrating IK in developing thinking and problem-solving skills, and a sense of global citizenship among students. It advocates for educational reforms that include IK as a vital component of science learning, suggesting that such integration can play a crucial role in achieving sustainable development goals by preparing students to engage thoughtfully with complex environmental and societal issues. This research contributes to the discourse on enhancing science education through the inclusion of diverse knowledge systems, offering insights into how such pedagogical innovations can support more sustainable and inclusive futures.
Co-Authors Owusu-Darko, Isaac Prayogi, Saiful Salvetti, Fernando Yazidi, Rachid El