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All Journal International Journal of Evaluation and Research in Education (IJERE)
Kurbanbekov, Bakitzhan
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Education

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Using digital tools in STEM education and the impact on student creativity in the field of tribology Skakov, Мazhyn; Ramankulov, Sherzod; Nurizinova, Мakpal; Kurbanbekov, Bakitzhan; Dossymov, Yelmurad
International Journal of Evaluation and Research in Education (IJERE) Vol 14, No 1: February 2025
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijere.v14i1.30220

Abstract

From a preliminary analysis of the scientific literature, it can be seen that knowledge of science, technology, engineering and mathematics (STEM) has a positive impact on the development of necessary skills in students’ professional activities. However, there are very few studies on the effectiveness of using STEM elements in developing the creativity of future physics teachers in specialized fields. The aim of this study was to develop digital resources as a basis for STEM knowledge and to assess their impact on the development of students’ creativity. Based on special principles of education, constructive method in teaching, modeling methods, digital educational resources were developed and an evaluation experiment was conducted. The experiment involved 86 students (40 in the control group and 46 in the experimental group), and compared the results of traditional learning and STEM learning by using digital resources. The results of the questionnaire assessment showed that STEM education can be very effective in developing students’ creativity. The pedagogical experiment was implemented during the teaching of the author’s course entitled “The physical foundations of tribology.” The results of the study contribute to finding solutions to scientific problems in the field of teaching tribology.
Impact of VR technology in physics teaching on students’ knowledge: a study on body acceleration Kurbanbekov, Bakitzhan; Ramankulov, Sherzod; Nurizinova, Makpal; Asanbek, Beksultan
International Journal of Evaluation and Research in Education (IJERE) Vol 14, No 6: December 2025
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijere.v14i6.34942

Abstract

The integration of virtual reality (VR) technology into education represents a promising innovation, particularly in enhancing the effectiveness of physics teaching. Traditional physics instruction often lacks interactive and immersive elements, which can limit students’ understanding of complex physical phenomena. This study addresses the challenge of improving comprehension of body acceleration by incorporating VR-based laboratory simulations. A quasi-experimental design was implemented, involving 222 university students randomly assigned to control and experimental groups. The experimental group conducted virtual experiments using VR simulations developed with Blender and Unity software, while the control group engaged in traditional lab activities. Data were collected through pre- and post-tests and analyzed using independent t-tests and G*Power software to assess statistical significance. The results revealed a notable improvement in learning outcomes for students exposed to VR-enhanced instruction, demonstrating increased engagement, deeper conceptual understanding, and improved ability to connect theoretical knowledge with practical application. This study confirms that VR technology is a powerful tool for modernizing science, technology, engineering, and mathematics (STEM) education and holds significant potential for improving cognitive outcomes and student motivation in scientific learning environments.
Co-Authors Asanbek, Beksultan Dossymov, Yelmurad Nurizinova, Makpal Nurizinova, Мakpal Ramankulov, Sherzod Skakov, Мazhyn