Laboratory activities are central to undergraduate student learning in science and engineering. With advancements in computer technology, many laboratory activities have shifted from providing students experiments in a physical mode to providing them in a virtual mode. Further, physical and virtual modes can be combined to address a single topic,…

Background: Virtual laboratories are used to supplement or even replace physical laboratories in engineering education. Although these virtual laboratories allow students to learn foundational experimental skills, they do not provide the learners with the chance to develop higher-order thinking skills (HOTS). Computational thinking (CT) is an…

Background Study: The research discusses the need for a paradigm shift in engineering education current practices to accommodate the digital native students. The paper emphasizes the importance of integrating disruptive technologies, namely Virtual Reality (VR) through Head Mounted Displays VR (HMD VR) and Desktop Based VR (DB VR) and comparing it…

Aim/Purpose: The study seeks to utilize Augmented Reality (AR) in creating virtual laboratories for engineering education, focusing on enhancing teaching methodologies to facilitate student understanding of intricate and theoretical engineering principles while also assessing engineering students' acceptance of such laboratories. Background: AR, a…

Chemical engineers must learn to connect concepts across vastly different scales, spanning from molecular structures to industrial processes. Here, we explore the use of a virtual-reality simulation with a companion video of an experiment to help undergraduate students connect nanoscale fundamentals to macroscale engineering observations.

The article discusses the efficacy of game-based learning (GBL) in logistics education, specifically through an empirical evaluation of the "Logistics Simulator LOST." Recognizing the complexities of evaluating serious games--interactive serious games platforms designed for educational, purpose--the article emphasizes the need for games…

Laboratories play a central role in engineering education. Current technology enables virtual experiences that challenge the traditional concept of teaching laboratories for undergraduate engineering students. Integrating technology, such as virtual laboratories, allows students to learn foundational experimental skills; however, it lacks…

A newly-developed online laboratory experiment in immersive virtual reality (VR) is used for process engineering students. A digital twin (DT) of a jet pump was realised using the game engine Unreal Engine 4. The chance was taken for an instructional redesign deviating from the conventional cookbook-experiment to better integrate the changing…

Background: Both learning and problem solving are major goals of complex problem solving in engineering education. The order of knowledge construction and problem solving in learning through problem solving, however, has not been explained in current literature. Objectives: To understand their relationships, this study compared the effects of…

As the number and complexity of instructional tools have increased, universities have rapidly adapted to ensure their students have the necessary tools and resources for academic success (Rafi et al., 2014; Rafi et al., 2020). One of these adaptations has been the creation of virtual learning platforms using Virtual Reality (VR) technology. This…

Today, Extended Reality (XR) technologies are exceedingly integrated into Architecture, Engineering and Construction (AEC) industries for collaboratively reviewing product design and development tasks. Reported study in this paper aims at integrating XR technologies in undergraduate programmes. This paper provides a descriptive analysis of…

Augmented reality (AR) has tremendous potential as a teaching and learning tool in engineering education to enhance students' learning experience; it influences the students' spatial ability for real-time visualization. Furthermore, this helps to attain better concept comprehension pertaining to improved understanding of the topics. The present…

Digital electronics is a fundamental subject for engineering students, and it enables the students to learn design-based approaches and solve complex engineering problems. Students learn about minimization techniques for reducing the hardware components and size of the circuit by solving complex Boolean equations. The Karnaugh map (K-map) is one…

Clinical immersion programs have been widely used in higher education, particularly in biomedical engineering (BME) programs, to allow students to identify and evaluate the unmet clinical needs. However, due to limited space and extensive safety protocols required to enter hospitals, access for undergraduate students to shadow physicians is…

This study aims to determine if "technology optimism" and "technology innovativeness" can explain and predict the use of augmented reality in the scope of engineering education. An Augmented Reality app to analyze digital current (DC) in resistive circuits was developed was developed to enhance students' understanding of…