Effects of augmented reality on learning and cognitive load in university physics laboratory courses
Michael Thees; Sebastian Kapp; Martin P Strzys; Fabian Beil; Paul Lukowicz; Jochen Kuhn
In: Computers in Human Behavior, Vol. 108, Page 106316, Elsevier, 2020.
Abstract
Recent studies emphasize a positive impact of learning with augmented reality (AR) systems in various instructional scenarios. Especially combining real and virtual learning components according to spatial and temporal contiguity principles is claimed to foster learning and to reduce extraneous cognitive processing. We applied these principles to a physics laboratory experiment examining heat conduction where students measure the temperature along heated metal rods via a thermal imaging camera. However, the traditional setup leads to a time delay between measuring and receiving data, and spatially separates relevant visualizations causing resource-consuming search processes. Using see-through smartglasses, traditional displays were transformed into virtual representations which were anchored to corresponding objects of the experimental setup, resulting in an integrated AR view of real-time data. Both traditional and AR-assisted workflows of data collection were investigated in a field study with undergraduate students (N=74) during a graded laboratory course. Performance and cognitive load were assessed as dependent variables. Although the AR condition did not show a learning gain in a conceptual knowledge test, they nonetheless reported a significant lower extraneous cognitive load than the traditional condition. These results contrast with recent findings on AR and integrated formats but reveal a significant impact on cognitive load research.
@article{pub12119,
author = {
Thees, Michael
and
Kapp, Sebastian
and
Strzys, Martin P
and
Beil, Fabian
and
Lukowicz, Paul
and
Kuhn, Jochen
},
title = {Effects of augmented reality on learning and cognitive load in university physics laboratory courses},
year = {2020},
volume = {108},
pages = {106316},
journal = {Computers in Human Behavior},
publisher = {Elsevier}
}
German Research Center for Artificial Intelligence Deutsches Forschungszentrum für Künstliche Intelligenz
