The increasing adoption of advanced simulation technologies (virtual reality, augmented reality, sophisticated mannequins) in anatomical science education offers undeniable pedagogical advantages, including safe practice environments and enhanced visualization of complex structures. This article explores the simulation paradox, arguing that the…

Integration of 3D photogrammetry models into anatomical education can enhance students' understanding of complex anatomical structures. With advancements in photogrammetry technology, this integration has become more accessible. Interactive, photorealistic models complement traditional methods such as donor dissections. This study evaluates the…

The use of different technologies and technological solutions for learning purposes is no longer a novelty in the educational environment. Digital teaching materials are being developed that can be used both in classroom activities and for providing students with opportunities for independent learning. However, alongside these materials, there are…

Digital model platforms and applications are common in anatomy education and continue to grow in number, which suggests that educators and students find use for these tools despite the lack of widely accepted best practices. Consequently, it is a challenge for educators to mindfully integrate digital models into curriculum. This short-term,…

Mobile augmented reality (MAR) draws attention in terms of providing a flexible learning process and environment. It is thought that learning environments can be more effective using MAR technology. The research aimed to determine the secondary school students' views on the use of MAR technology in science teaching. The research was conducted with…

In this research, the effects of science education using mobile augmented reality (MAR) application on students' attitudes towards science and technology and their academic achievement were determined and two socioeconomic levels were compared. In this research, a parallel pattern mixed method is used. The research, was carried out 143 sixth grade…

Research on Mobile Augmented Reality (Mobile AR) includes studies addressing Mobile AR integration into learning environments along with the quality of instructions by researchers about using mobile AR in classrooms. Findings revealed that even inexperienced teachers/pre-service science teachers who lacked any prescribed material could use mobile…

We place collaborative student engagement in a nontraditional perspective by considering a novel, more interactive educational environment and explaining how to employ it to enhance student learning. To this end, we explore modern technological classroom enhancements as well as novel pedagogical techniques which facilitate collaborative learning.…

The evolution of technologies and the development of new tools with educational purposes are growing up. This work presents the experience of a new tool based on augmented reality (AR) focusing on the anatomy of the lower limb. ARBOOK was constructed and developed based on TC and MRN images, dissections and drawings. For ARBOOK evaluation, a…

Augmented reality (AR), a new generation of technology, has attracted the attention of educators in recent years. In this study, a MagicBook was developed for a neuroanatomy topic by using mobile augmented reality (mAR) technology. This technology integrates virtual learning objects into the real world and allow users to interact with the…

This article attempts to describe students' process of learning physics using the notion of experiencing variation as the basic mechanism for learning, and thus explores what variation, with respect to a particular object of learning, that students experience in their process of constituting understanding. Theoretically, the analysis relies on…