Given the emergence of technological advancements like the Internet of Things (IoT), Artificial Intelligence, Augmented and Virtual Reality, it is imperative for engineering education to keep up with industry demands. To achieve this, one promising approach is the utilization of virtual labs which provide students with practical training in a simulated environment. In this paper, the authors proposed the use of Matterport, a 3D camera and virtual tour platform, to create a virtual Thermofluids lab for Year 1 Engineering students in Ngee Ann Polytechnic. Matterport's ability to create highly detailed and accurate 3D models of physical spaces makes it an ideal tool for building virtual labs. The virtual environment was furnished with instructional videos and simulation data to enhance interactivity.

The Matterport virtual lab was used as a substitute for in-person instructor-led lab for peri-corona home-based learning and as a supplementary learning resource for post-corona hybrid learning. To evaluate the efficacy of the Matterport virtual lab, the authors conducted a comparative analysis of students’ laboratory performance results for three different semesters (pre-corona, peri-corona, and post-corona periods) involving cohorts of 400 students each. There was a 4.3% deviation in the mean and median laboratory scores between the pre-corona and peri-corona results, indicating that students achieved similar learning outcomes and competencies while completing the perfect gas experiment solely through the virtual lab during peri-corona as compared to in-person instructor-led lab during pre-corona. Based on the same metrics, it was also observed that the post-corona results showed a 7.36% improvement compared to pre-corona results. This suggests that students seemed to be able to effectively use the virtual lab as a supplementary learning resource to enhance their learning. Furthermore, an evaluation survey conducted with the students revealed that on average, each student spent an extra 28.5 minutes on the virtual lab in addition to the 1-hour instructor-led experiment weekly. The 47.5% increase in time spent by each student in the lab during post-corona as compared to pre-corona may have contributed to the observed improvement in grades. These findings indicate that virtual labs have the potential to be an effective and efficient alternative to traditional face-to-face labs. Additionally, they serve as a flipped learning and recap tool that extends students’ learning, thus offering possibilities for enhancing engineering education.