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Latest Presentations
- G4LI PIS PLASS, HOMER PRESENT GOOGLE TECHTALK
- G4LI PRESENTS A POSTER AT THE JEAN PIAGET SOCIETY ANNUAL MEETING
- 4TH ANNUAL SUBWAY SUMMIT: POSTURE AS AN INDICATOR OF ENGAGEMENT IN HANDHELD AND LAPTOP GAME-PLAY
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Latest Publications
- HOMER & PLASS: EXPERTISE REVERSAL FOR ICONIC REPRESENTATIONS IN SCIENCE SIMULATIONS
- DOMAGK, SCHWARTZ, & PLASS: INTERACTIVITY IN MULTIMEDIA LEARNING: AN INTEGRATED MODEL
- ANNOUNCING THE RELEASE OF COGNITIVE LOAD THEORY, CO-EDITED BY G4LI’S JAN L. PLASS
- NYU CREATE RELEASES MOLECULES & MINDS FINAL REPORT
- OPTIMIZING COGNITIVE LOAD FOR LEARNING FROM COMPUTER-BASED SCIENCE SIMULATIONS
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- G4LI REPORT OF MAY 28TH, 2010 MEETING—A DISCUSSION OF THE POTENTIAL OF VIDEO GAMES TO TRANSFORM THE FUTURE OF LEARNING
- EDUCATIONAL GAME DESIGN PATTERN CANDIDATES
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Optimizing Cognitive Load for Learning From Computer-Based Science Simulations
Published October 9th, 2009
Category Research
By Jan L Plass and Bruce Homer
Topics Cognition, Cognitive load, icons, Multimedia learning, Science Education, Science Learning, Simulation, Visualization,
Hyunjeong Lee • Jan L. Plass • Bruce D. Homer
How can cognitive load in visual displays of computer simulations be optimized? Middle-school chemistry students (N = 257) learned with a simulation of the ideal gas law. Visual complexity was manipulated by separating the display of the simulations in 2 screens (low complexity) or presenting all information on 1 screen (high complexity). The mode of visual representation in the simulation was manipulated by presenting important information in symbolic form only (symbolic representations) or by adding iconic information to the display (iconic + symbolic representations), locating the sliders controlling the simulation separated from the simulation or integrating them, and graphing either only the most recent simulation result or showing all results taken. Separated screen displays and the use of optimized visual displays each promoted comprehension and transfer, especially for low prior-knowledge learners. An expertise reversal effect was found for learners’ prior general science knowledge. Results indicate that intrinsic and extraneous cognitive load in visual displays can be manipulated and that learners’ prior knowledge moderates the effectiveness of these load manipulations.
