Mobile Augmented Reality Laboratory for Learning Acid–Base Titration

Alfaro, Jessica Lizeth Domínguez; Gantois, Stefanie; Blattgerste, Jonas; Croon, Robin De; Verbert, Katrien; Pfeiffer, Thies; Puyvelde, Peter Van

doi:10.1021/acs.jchemed.1c00894

Cited by 21 publications

(12 citation statements)

References 33 publications

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“…This can range from digital labeling to additional information in the form of videos, texts, or sound files to the complete substitution of entire experiment components . “Digitizing” an experiment as a whole can also be helpful under certain circumstances, e.g., due to safety regulations or lack of laboratory equipment . This may even be the only way to perform experiments .…”

Section: Theoretical Backgroundmentioning

confidence: 99%

ZuKon 2030: An Innovative Learning Environment Focused on Sustainable Development Goals

et al. 2022

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Global challenges such as the COVID-19 pandemic highlight the need for visionary innovations in chemical education. We recently deigned a new learning environment called “ZuKon 2030”, which addresses sustainability from a chemical perspective while simultaneously introducing students to the sustainable development goals (SDGs) of the United Nations Agenda 2030. It integrates modern and innovative learning strategies by creating a format that can be used in either face-to-face or distance learning settings. In addition to the modules designed as exit games embedded in the overarching narrative of a fictional science conference, the Future Conference, paper materials enriched with Augmented Reality are used in order to allow students to complete the modules independently. In this paper, we present the basic concept of the learning environment and concretely show the implementation of the concept. We use the module “The Mystery of Coral Death” as an example, and we report our results and experiences with the entire learning environment. In the preliminary study, the students rated the hybrid learning environment mostly positively in the areas of thematic content, realization of the learning environment, digital content, and game elements.

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Section: Theoretical Backgroundmentioning

confidence: 99%

ZuKon 2030: An Innovative Learning Environment Focused on Sustainable Development Goals

et al. 2022

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“…Augmented reality (AR) and 3D models are accessible tools that are slowly gaining traction within the chemical and biochemical communities. 1 − 3 For example, these tools have been used to enhance learning and safety practices in the laboratory 4 − 8 and to provide an engaging and interactive way to visualize chemical species. 9 − 16 For these visualization technologies, a limited number of models and animations are created and accessed via a mobile application, Web site, or quick response (QR) codes.…”

Section: Introductionmentioning

confidence: 99%

“…As such, physical models are often used by lecturers and students to help with the visualization of a chemical species. Augmented reality (AR) and 3D models are accessible tools that are slowly gaining traction within the chemical and biochemical communities. − For example, these tools have been used to enhance learning and safety practices in the laboratory − and to provide an engaging and interactive way to visualize chemical species. − For these visualization technologies, a limited number of models and animations are created and accessed via a mobile application, Web site, or quick response (QR) codes. ,,,,,− Typically, these models consist of small molecules (∼100 atoms or less) represented as atomistic models or large molecules such as proteins represented as simplified models like “ribbons” and “sheets”. The data used for creating 3D models of these systems can be easily accessed via databases such as the Cambridge Crystallographic Data Base or the Protein Data Bank .…”

Section: Introductionmentioning

confidence: 99%

App-Free Method for Visualization of Polymers in 3D and Augmented Reality

et al. 2023

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The rise of virtual and online education in recent years has led to the development and popularization of many online tools, notably three-dimensional (3D) models and augmented reality (AR), for visualizing various structures in chemical sciences. The majority of the developed tools focus on either small molecules or biological systems, as information regarding their structure can be easily accessed from online databases or obtained through relatively quick calculations. As such, due to a lack of crystallographic and theoretical data available for nonbiological macromolecules, there is a noticeable lack of accessible online tools for the visualization of polymers in 3D. Herein, using a few sample polymers, we showcase a workflow for the generation of 3D models using molecular dynamics and Blender. The 3D structures can then be hosted on p3d.in, where AR models can be generated automatically. Furthermore, the hosted 3D models can then be shared via quick response (QR) codes and used in various settings without the need to download any applications.

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“…This also avoids the need for demonstration of experiments in physical labs. Doing VLs have shown to significantly reduce the experimental time students spend in physical laboratories (Bolkas et al, 2022 ; Domínguez Alfaro et al, 2022 ). Assessment of Learning : Assessing learning helps every teacher strategize their pedagogic approaches to learning and maximize students’ application-oriented conceptual understanding.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Longitudinal study of teacher acceptance of mobile virtual labs

Kolil

Achuthan

2022

Educ Inf Technol

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Synthesizing the advancements in technology with classroom practices depends considerably on teachers acceptance of such internet and communication technology (ICT) tools. Adequate teacher training and upgrading of their IT skills are not prioritized in developing economies leading to poor adoption of emerging technology assisted pedagogic interventions. This paper investigated the underlying characteristics of teachers acceptance of mobile friendly virtual laboratories (M-VLs) as part of a longitudinal study conducted over 5 years covering both pre-pandemic and pandemic periods. Systematic analysis of quantitative data from 650 chemistry teachers was carried out. Viewing through the theoretical lens of Unified Theory of Acceptance and Use of Technology (UTAUT2) theory, the effects of performance expectancy (PE), effort expectancy (EE), social influence (SI), facilitating conditions (FC), hedonic motivation (HM) and habit (HA) on the behavioral intention (BI) and use behavior (UB) were scrutinized. Structural Equation Modeling (SEM) analysis revealed that PE, SI, and HA are the considerable predictors of the BI to use M-VLs and HA is the predictor of UB. The present study found HM influencing teacher’s BI and UB before COVID-19. However during COVID-19 the FC influenced usage. Moreover, we found that the technology training focused on enhancing knowledge, skill and, access leads to teachers’ are critical to empowering teachers and causing wider adoption.

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Mobile Augmented Reality Laboratory for Learning Acid–Base Titration

Cited by 21 publications

References 33 publications

ZuKon 2030: An Innovative Learning Environment Focused on Sustainable Development Goals

ZuKon 2030: An Innovative Learning Environment Focused on Sustainable Development Goals

App-Free Method for Visualization of Polymers in 3D and Augmented Reality

Longitudinal study of teacher acceptance of mobile virtual labs

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