Numerous studies have delved into the application of augmented reality (AR) in chemistry education, focusing on specific topics, equipment requirements, and advantages. However, there remains a notable dearth of research examining the evolutionary characteristics of AR in this context. This study, employing bibliometric analysis on 66 articles…

This extensive bibliometric analysis examines Augmented Reality (AR) adoption and its effects on chemistry education from 2002 to 2023. AR's interaction, threedimensional visualizations of molecular structures and reactions prove as a promising method for chemical concepts that are ever-increasingly sophisticated and for educational methods that…

HOBIT, which stands for "Hybrid Optical Bench for Innovative Teaching and learning" is an educational platform that leverages the combination of numerical simulation and physical manipulation to facilitate learning of complex phenomena and motivate users about wave optics in practical work. HOBIT operates in real time and is…

Teaching the complex subject matter of "Exploring Space" necessitates concrete and engaging teaching methods, as it requires students to employ abstract thinking and imagination. An expert team designed and developed Augmented Reality (AR)-based activity schemes for children aged 3-6. A total of 166 preschool students from Ningbo, China,…

This study investigated the impact of two teaching strategies, conventional and drawing principle, associated with the use of Augmented Reality (AR), on the school performance of pupils in the 7th-year of primary school and the 10th-year of secondary school on volcanism learning. Compared to previous research, the novelty of this study lies in the…

This study aims to determine the learning outcomes of children in educational settings by using an AR (Augmented Reality) app for animals in classroom activities. To achieve this, the study used sequential exploratory research design, applied in both quantitative and qualitative research. The participants in the study are 2 teachers and 37…

Background: Inquiry-based learning (IbL) has significantly contributed to science education, and this impact can be enhanced with technology. Augmented Reality (AR) offers 3D visualisation and interactive experiences, whereas Video-based Learning (VbL) provides narratives with visual and audio support. Both methods aid students in exploring,…

This study used network meta-analysis to investigate the impact of the use of interactive learning environments (ILE) tools (augmented reality (AR), virtual reality (VR), mixed reality (MIX), and interactive digital games (GAME)) in science education on learning outcomes. A total of 53 primary studies were retrieved from the literature according…

Immersive virtual reality (IVR) technology influences students' cognitive processes and affective experience, according to previous research findings. Yet, empirical studies that investigate the impact of IVR on science education in secondary schools are limited. This article reports a pilot study that has two objectives: First, to investigate…

The purpose of this study is to enhance online biology learning with mobile augmented reality (AR) applications and to assess the impact of mobile AR applications on students' motivation, self-efficacy, and attitudes toward biology learning. Students were interviewed, and the usefulness of mobile AR applications was evaluated using a…

This study investigates the effect of incorporating different learning materials (paper textbooks, wearable AR material, and wearable hybrid AR/VR material) in a physics laboratory education on the situational interest, engagement, and learning performance of high school students. The study utilized a quasi-experimental research design. The…

As the use of online education increases, technologies to improve the quality of learning have been improving alongside it. One method of information dissemination is virtual learning environments (VLE), in which educators can tailor digital lessons according to their subject and the needs of their students. For soil science, and field-based…

Due to the difficulty of chemical compounds to visualize, augmented reality (AR) integrated with mobile learning has been developed as an alternative media for studying chemistry. This study aims to analyze the use of AR-integrated mobile learning in chemistry education from a bibliometric perspective in the last decade. A total of 225 articles…

Background: Guidance has showed positive effects on promoting inquiry-based learning in science education. While an increasing number of studies focus on the design of guidance in simulation-based inquiry learning due to recent technology developments, how different designs of a same type of guidance affect learning remains a question. Objectives:…

Digitally simulated laboratory assessments (DSLAs) may be used to measure competencies such as problem solving and scientific inquiry because they provide an environment that allows the process of learning to be captured. These assessments provide many benefits that are superior to traditional hands-on laboratory tasks; as such, it is important to…