You fall off of a ledge, dropping through a hole in the floor, only to find yourself hurtling out the side of a wall like a cannon ball. If you can imagine that easily, you have great spatial thinking skills. Or you’ve been playing Portal 2. Perhaps your spatial thinking skills got a boost from playing Portal 2.
Spatial thinking is not just about fun and games. For example, the following mental activities all involve spatial thinking heavily:
- Planning a route by thinking of landmarks along the way
- Visualizing the structure of a protein molecule
- Examining an engineering drawing and mentally rotating the image
Spatial thinking is increasingly seen as a critical cognitive skill. It may even be pivotal to success in science, technology, engineering, and mathematics (STEM) programs.
David Uttal of Northwestern University, along with his colleagues David Miller and Nora Newcombe believe in the importance of spatial thinking. And they have a growing body of evidence to back it up.
Uttal and his colleagues reviewed the research on the possibility of training spatial thinking, and the difference it could make for STEM education. They published their review, “Exploring and Enhancing Spatial Thinking: Links to Achievement in Science, Technology, Engineering, and Mathematics?” in Current Directions in Psychological Science.
Uttal’s team first tackled the question of whether spatial thinking can be trained. Many studies have been completed on this issue, using a variety of training methods. Everything from abstract spatial exercises to video games to graphics units embedded in content classes.
The researchers examined the results of 206 previously completed studies. They calculated how strong of an effect training had for each study. Then they aggregated the findings across the studies.
Their conclusion was that spatial thinking can be improved with training. In addition, some versions of training show lasting effects. They also produce benefits that transfer to new spatial thinking tasks.
Spatial Thinking in STEM
Uttal and colleagues also looked into research that relates spatial thinking to performance in STEM. The idea is that STEM subjects often require reasoning with diagrams, graphs, model visualizations, and the like. Less work has been done on this issue. Yet, several studies suggest optimism.
In one study, high school students were assessed on their spatial thinking skills. Those who scored higher were more likely to eventually make their careers in STEM fields. The spatial thinking effect was independent of math and verbal skills.
In another study, engineering college students who performed poorly on a spatial thinking test were invited for special training. Those who took it did better in later courses. One caveat of this study is that the students self-selected into the elective course. So, they may have been more highly motivated to succeed.
A follow-on experiment used a randomized controlled trial to overcome the problem. It also included highly gifted STEM students. For example, over a quarter of the participants had achieved perfect scores on their math SATs. The idea was to find out whether the training could improve performance in students who already had very strong spatial thinking skills. The results were striking. Those who received the training in spatial thinking did much better in an especially challenging physics course.
These initial results are extremely encouraging. Much more research is needed to draw firm conclusions and to optimize training designs. One avenue is to integrate training on spatial thinking into core STEM courses. Connecting cognitive skills training to specific course content is a generally accepted approach to improve the effectiveness of such training in everyday practice.
The National Science Foundation apparently agrees with the promise of spatial thinking. They have founded the Spatial Intelligence and Learning Center (SLIC). SLIC is a large collaboration among professors at several universities to understand and enhance spatial thinking across the curriculum.
TeachSpatial is another interesting site that provides information and resources to improve spatial thinking.
The efforts underway are quite promising for the future enhancement of STEM education by identifying and nurturing key cognitive skills like spatial thinking.
While you wait for the best practices to emerge, you’ve got a great excuse to try Portal 2. It may well improve your spatial thinking skills. It will definitely bend your mind.
David H. Uttal, David I. Miller, & Nora S. Newcombe (2013). Exploring and Enhancing Spatial Thinking: Links to Achievement in Science, Technology, Engineering, and Mathematics? Current Directions in Psychological Science, 22 (5), 367-373 : 10.1177/0963721413484756