Supporting learning of variable control in a computer-based biology environment: Effects of prompting college students to reflect on their own thinking

While instruction on control of variables has been shown to be effective, e specially when it encourages students to focus explicitly on rules or proce dures, little evidence of application to novel problems has been obtained. We hypothesized that prompting students to understand their own learning pr ocesses while doing experiments involving control of variables would allow them to activate their repertoire of knowledge and strategies and learn in a way that would enhance transfer of learning. Students were assigned to on e of four versions of a computer-based biology simulation learning environm ent, each employing a different type of prompt: reason justification, rule based, emotion focused, or none (control). Learning in this computer enviro nment, college biology students designed and conducted experiments involvin g control of variables. Students' ability to solve both contextually simila r (near transfer) and contextually dissimilar (far transfer) problems was a ssessed. The treatment groups performed equally well on contextually simila r problems. However, on a contextually dissimilar problem, the reason justi fication group had significantly higher scores than the other groups. Quali tative data showed that the reason justification prompts directed students' attention to understanding when, why, and how to employ experiment design principles and strategies, and this in turn helped students to transfer the ir understanding to a novel problem. (C) 1999 John Wiley & Sons, Inc.