Learning Newtonian mechanics with an intrinsically integrated educational game
Abstract: Research on cognitive effects of educational games in general shows promising results. However, large variations in learning outcomes between individual educational games exists. Research on the design process and different design elements of educational games has led to some interesting directions, but some design aspects remain unclear. We examined how an educational game designed on the basis of intrinsic integration theory, based on a strong alignment between game and learning goals, supports the learning of Newtonian mechanics. This study applied a mixed methods approach. An pre and posttest design was used to examine possible learning and transfer effects fostered by playing the educational game, Newtons Race. To examine how players played the game, log data of each player was digitally recorded during gameplay. Our findings demonstrated a significant positive learning effect of Newtons Race. This finding can be explained with acquired log data. Log data show that players gameplay mostly matched expected learning during the game, with physically correct game settings occurring more and more as gameplay progressed. The ability to transfer learned knowledge onto other situations was shown to be limited to situations closely resembling the game environment. Similar designed intrinsically integrated games on different (physics) subjects could also foster learning in a relative short time. In order to foster transfer to other situations we propose embedding the game within other instructional activities.
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