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Henry V. Jakubowski; Henry Agnew; Bartholomew Jardine; Herbert M. Sauro – Biochemistry and Molecular Biology Education, 2024
Biology is perhaps the most complex of the sciences, given the incredible variety of chemical species that are interconnected in spatial and temporal pathways that are daunting to understand. Their interconnections lead to emergent properties such as memory, consciousness, and recognition of self and non-self. To understand how these…
Descriptors: Biochemistry, Mathematics, Graphs, Simulation
Artur Huseinov; Noe T. Alvarez – Journal of Chemical Education, 2024
The measurement of glucose through electrochemical methods is a great example to illustrate the practical application of electrochemistry. Although many students enrolled in chemistry classes are familiar with the glucose meter, only a few have delved into the underlying principles governing its operation. This experiment aims to address this gap…
Descriptors: Chemistry, Simulation, Human Body, Science Education
Yiting Lin; Yunqi Cai; Cheng Lian; Shouhong Xu; Wenqing Zhang; Honglai Liu – Journal of Chemical Education, 2025
Ion transport, involving the diffusion and migration of ions within the electrolyte, stands as a fundamental concept in electrochemistry and serves as the driving force for electrochemical reactions. Electric double layers are critical in the fields of electrochemical energy storage and chemical conversion, constituting a central focus of…
Descriptors: Chemistry, Science Instruction, Energy, Engineering
Atina Putri; Fahma Waluya Rosmansyah; Chessa Nur Triejunita; Yuda Sukmana; Nyilo Purnami; Sakina Sakina; Yuni Sari Amalia; Yusep Rosmansyah – Smart Learning Environments, 2025
The increasing popularity of mobile devices as alternative tools for learning has led to the adoption of virtual laboratory simulation (VLab) to enhance practical learning experiences. This paper introduces an interactive mobile learning application designed to facilitate medical students in learning ear anatomy using a three-dimensional model.…
Descriptors: Science Laboratories, Anatomy, Science Education, Computer Simulation
Bryan Fulmer; Ahn Duong; Hannah Palmer; Kevin G. Owens – Journal of Chemical Education, 2024
Digital learning tools and laboratory simulations have been an area of great interest not only due to the advancements of at-home learning but also by allowing students and institutions access to experiences they would not have otherwise due to the high cost of commercial instrumentation. The need for online learning tools became especially…
Descriptors: Science Instruction, Educational Technology, Technology Uses in Education, Measurement Equipment
Henry Matovu; Mihye Won; Roy Tasker; Mauro Mocerino; David Franklin Treagust; Dewi Ayu Kencana Ungu; Chin-Chung Tsai – Chemistry Education Research and Practice, 2025
Immersive Virtual Reality (iVR) can help students visualise and explore complex chemical concepts, such as protein enzyme structures and interactions. We designed a set of collaborative iVR-based learning tasks on the interaction between a protein enzyme and its substrate. We investigated how 18 pairs (36 students) in undergraduate chemistry…
Descriptors: Biochemistry, Science Education, Computer Simulation, Technology Uses in Education
Eshetu Desalegn Alemneh; Dereje Andargie Kidanmariam; Solomon Melesse Mengistie; Belete Bedemo Beyene – Journal of Technology and Science Education, 2024
The study aimed to investigate the effect of computer simulation and animation-integrated instruction on preservice science teacher trainees' conceptual understanding and retention of acid-base chemistry and stoichiometry. A quantitative approach with a pretest-posttest-delayed test quasi-experimental design was used. In the study area, there were…
Descriptors: Computer Simulation, Animation, Preservice Teachers, Preservice Teacher Education
Bruno Bousquet; Martin Hachet; Vincent Casamayou; Erwan Normand; Jean-Paul Guillet; Lionel Canioni – Discover Education, 2024
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…
Descriptors: Physics, Scientific Concepts, Optics, Science Education
Szergej Capec; Gabriella Capec; Zuzana Mateasikova; Hana Rancova; Jana Petrkova; Jaromir Vachutka; Martin Petrek – Advances in Physiology Education, 2025
A good knowledge of the theoretical foundations of medicine helps students and physicians to better recognize and treat patients with complex medical conditions, including sepsis and septic shock. The article describes the authors' experience in implementing the analysis of sepsis and septic shock using a high-fidelity simulated clinical scenario…
Descriptors: Teaching Methods, Pathology, Physiology, Diseases
Samuel Jere; Mamotena Mpeta – Research in Science Education, 2024
One of the critical goals of teaching chemistry is to enable learners to gain conceptual understanding. Traditional instruction has often been associated with rote memorisation, resulting in learners failing to explain observed chemical phenomena, make predictions based on acquired concepts, advance convincing arguments, and engage in meaningful…
Descriptors: Computer Simulation, Concept Formation, Energy, Scientific Concepts
Anna Maria Arias; Brendan E. Callahan; Michael Dias; Karen Kuhel – Journal of Science Teacher Education, 2024
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,…
Descriptors: Lesson Plans, Elementary School Teachers, Science Teachers, Science Education
Yannik Peperkorn; Jana-Kim Buschmann; Stefanie Schwedler – Chemistry Education Research and Practice, 2024
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…
Descriptors: Chemistry, Simulation, Science Education, Scientific Concepts
Leonora Kaldaras; Hope O. Akaeze; Joseph Krajcik – Journal of Research in Science Teaching, 2024
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…
Descriptors: Science Education, Academic Standards, Chemistry, Energy
Salvatore G. Garofalo – Journal of Science Education and Technology, 2025
The initial learning experience is a critical opportunity to support conceptual understanding of abstract STEM concepts. Although hands-on activities and physical three-dimensional models are beneficial, they are seldom utilized and are replaced increasingly by digital simulations and laboratory exercises presented on touchscreen tablet computers.…
Descriptors: High School Freshmen, Science Instruction, Chemistry, Molecular Structure
Shufan Yu; Qingtang Liu; Jiaxu Liu; Jingjing Ma; Yuanyuan Yang – Education and Information Technologies, 2024
While augmented reality (AR) technology has shown the potential to facilitate students' hands-on activities, few studies have explored its effectiveness in acoustic topics. This paper introduces an AR-based application for learning about the Doppler effect and investigates its educational effectiveness on students' learning achievement, interest,…
Descriptors: Computer Simulation, Educational Technology, Acoustics, Scientific Concepts