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Direct linkKohnle, Antje; Passante, Gina – Physical Review Physics Education Research, 2017
Analyzing, constructing, and translating between graphical, pictorial, and mathematical representations of physics ideas and reasoning flexibly through them ("representational competence") is a key characteristic of expertise in physics but is a challenge for learners to develop. Interactive computer simulations and University of…
Descriptors: Physics, Science Instruction, Quantum Mechanics, Computer Simulation
Blikstein, Paulo; Gomes, July Silveira; Akiba, Henrique Teruo; Schneider, Bertrand – Technology, Knowledge and Learning, 2017
Technology is changing the way students interact with knowledge, and open-ended activities are one of the main types of tasks that students engage with in technology-rich environments. However, the amount of guidance needed to promote learning in these environments remains unknown. We explore this issue by focusing on the effects of step-by-step…
Descriptors: Teaching Methods, Educational Technology, Technology Uses in Education, Arousal Patterns
Adams, Deanne M.; Pilegard, Celeste; Mayer, Richard E. – Journal of Educational Computing Research, 2016
Learning physics often requires overcoming common misconceptions based on naïve interpretations of observations in the everyday world. One proposed way to help learners build appropriate physics intuitions is to expose them to computer simulations in which motion is based on Newtonian principles. In addition, playing video games that require…
Descriptors: Video Games, Teaching Methods, Technology Uses in Education, Simulated Environment
