We investigated whether augmenting instructional animations with a body analogy (BA) would improve 10- to 13-year-old children's learning about class-1 levers. Children with a lower level of general math skill who learned with an instructional animation that provided a BA of the physical system, showed higher accuracy on a lever problem-solving reaction time task than children studying the instructional animation without this BA. Additionally, learning with a BA led to a higher speed-accuracy trade-off during the transfer task for children with a lower math skill, which provided additional evidence that especially this group is likely to be affected by learning with a BA. However, overall accuracy and solving speed on the transfer task was not affected by learning with or without this BA. These results suggest that providing children with a BA during animation study provides a stepping-stone for understanding mechanical principles of a physical system, which may prove useful for instructional designers. Yet, because the BA does not seem effective for all children, nor for all tasks, the degree of effectiveness of body analogies should be studied further. Future research, we conclude, should be more sensitive to the necessary degree of analogous mapping between the body and physical systems, and whether this mapping is effective for reasoning about more complex instantiations of such physical systems.

Additional Metadata
Keywords Body analogy, Digital learning, Embodied learning, Gestures, Science education
Persistent URL dx.doi.org/10.3389/fpsyg.2016.00860, hdl.handle.net/1765/96455
Journal Frontiers in Psychology
Citation
Pouw, W.T.J.L, van Gog, T.A.J.M, Zwaan, R.A, & Paas, G.W.C. (2016). Augmenting instructional animations with a body analogy to help children learn about physical systems. Frontiers in Psychology, 7(JUN). doi:10.3389/fpsyg.2016.00860