Due to the COVID-19 pandemic and adapting the classes urgently to distance learning, directing students' interest in the course content became challenging. The solution to this challenge emerges through creative pedagogies that integrate the instructional methods with new technologies like augmented reality (AR). Although the use of AR in science…

New reforms and the Next Generation Science Standards call for three-dimensional learning through the integration of the crosscutting concepts (CCCs) with the science and engineering practices (SEPs) and disciplinary core ideas (DCIs). However, teachers face challenges in knowing how and why to incorporate the CCCs in their planning and teaching,…

Past research repeatedly revealed students' struggles to understand chemical equilibria, especially concerning their dynamic nature. Black-box simulations have proven to be helpful here. However, the effect is strongly dependent on the quality of teaching, the design principles of which are not yet fully known. One aspect of debate concerns the…

Chemical bonding is central to explaining many phenomena. Research in chemical education and the Framework for K-12 Science Education (the "Framework") argue for new approaches to learning chemical bonding grounded in (1) using ideas of the balance of electric forces and energy minimization to explain bond formation, (2) using learning…

This study investigates the role of Immersive Virtual Reality (IVR) in facilitating Transformative Experiences (TE) and enhancing everyday engagement with learning. Using the Teaching for Transformative Experiences in Science (TTES) model, this research integrates IVR's unique affordances--presence and agency--to examine how immersive learning…

Despite the promising advantages of cutting-edge technologies like virtual laboratories (VL) for enhancing science education, a significant gap remains between their theoretical benefits and practical application, particularly in rural schools in the Global South. This article argues that the effective integration of VL is largely dependent on…

Virtual laboratories (VLs) enable students to experiment, analyze data, or interact with digital content in a nonphysical space. VLs include simulations, electronic notebooks, videos, and augmented reality. As part of the "VL Project," comprising five academic institutions in Ireland, we sought to determine how VLs might enhance…

The transformation of natural history and science museums from receptacles (temples) to facilitators (forums) of knowledge fosters discourse around issues relating to science and society, known as social scientific issues (SSI). To assist guests with enhanced object-based learning, extended reality (XR) technologies are thought to leverage the…

The complex processes of collaborative knowledge construction require a multimodal approach to capture the interplay between learners, tools, and the environment. While existing studies have recognized the importance of considering multiple modalities, there remains a need for a comprehensive framework that explicitly models the dynamics of…

The development of accurate spatial conceptualisations of molecular biology structures, processes and interactions represents a critical learning outcome for a wide array of life sciences students. In this study, we investigated student learning through a bespoke virtual reality (VR) simulation focused on interactive assembly of an expression…

The interrelationship of science and engineering and the recent inclusion of engineering in K-12 science standards have promoted the incorporation of engineering design in science classrooms. However, empirical studies on the impacts of engineering design on science learning show mixed findings and indicate that factors such as the complexity of…

Virtual laboratory is computer software that has the ability to perform mathematical modeling of computer equipment presented in the form of simulations. Virtual laboratory is not a substitute for real laboratory, but are used to complement and improve the weaknesses of real laboratory. This study aims to determine the effect of virtual laboratory…

An ICP-MS simulation was developed to support the teaching of inductively coupled plasma-mass spectrometry. The app enables students to conduct the quantification of selenium in a nutritional supplement, monitor the uptake of metallodrugs by cells, and perform qualitative analysis of gunshot residue. The experiments teach a range of analytical…

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…