Out of the four approaches in researches on spatial thinking in undergraduate science curricula, viz. correlation studies, studies on training of spatial ability, focused studies and dynamic spatial representations studies; this paper reviews the correlational studies of spatial ability and science education. Spatial ability plays vital roles in participation and success of an individual in science. Researchers have found positive correlations ranging from 0.1 – 0.6 among spatial abilities and performance in different branches of science.

Article visualizations:

Bodner, G. M. & McMillan, T. L. B. (1986). Cognitive restructuring as an early stage in problem solving. Journal of Research in Science Teaching, 23, 727-737.

Carter, C. S., LaRussa, M. A., & Bodner, G. M. (1987). A study of two measures of spatial ability as predictors of success in different levels of general chemistry. Journal of Research in Science Teaching, 24(7), 645-657.

Cohen, C. A., & Hegarty, M. (2007). Individual differences in use of an external visualization while performing an internal visualization task.Applied Cognitive Psychology, 21, 701- 711.

Garg, A. X., Norman, G. R., Spero, L., & Maheshwari, P. (1999). Do virtual computer models hinder anatomy learning? Academic Medicine, 74 (10), S87-S89.

Garg, A. X., Norman, G., & Sperotable, L. (2001). How medical students learn spatial anatomy. The Lancet, 357, 363-364

Hegarty, M., & Sims, V. K. (1994). Individual differences in mental animation during mechanical reasoning. Memory & Cognition, 22, 411-430.

Hegarty, M., Keehner, M., Khooshabeh, P., & Montello, D. R. (2009). How spatial ability enhances, and is enhanced by, dental education. Learning and Individual Differences, 19, 61-70.

Hegarty, M.., Crookes, R., Dara-Abrams, D. & Shipley, T. F. (2010) Do all science disciplines rely on spatial abilities? Preliminary evidence from self-report questionnaires. In C. Holscher (et al) (Eds.) Proceedings of Spatial Cognition 2010. Berlin: Springer.

Isaak, M. I. & Just, M. A. (1995). Constrains on the processing of rolling motion: the curtate cycloid illusion. Journal of Experimental Psychology: Human Perception and Performance, 21, 1391-1408.

Kastens, K. (2009). Synthesis of research on thinking & learning in the geosciences: Developing representational competence. Presented at the annual meeting of the Geological Society of America, October 18-21.

Keig, P. F., & Rubba, P. A. (1993). Translation of representation of the structure of matter and its relationship to reasoning, gender, spatial reasoning, and specific prior knowledge. Journal of Research in Science Teaching, 30, 883-903.

Kozhevnikov, M. & Thornton, R. (2006). Real-time data display, spatial visualization ability and learning force and motion concepts. Journal of Science Education and Technology, 15, 111 -132.

Kozhevnikov, M., & Hegarty, M. (2001). A dissociation between object manipulation spatial ability and spatial orientation ability. Memory & Cognition, 29(5), 745-756.

Kozhevnikov, M., Hegarty, M., & Mayer, R. E. (2002). Revising the visualizer-verbalizer dimension: Evidence for two types of visualizers. Cognition and Instruction, 20,47-78.

Kozma, R. B., Russell, J., Jones, T., Marx, N., & Davis, J. (1996). The use of multiple, linked representations to facilitate science understanding. In R. G. S. V osniadou, E. DeCorte, & H. Mandel (Eds.), International perspective on the psychological foundations of technology-based learning environments (pp. 41-60). Hillsdale, NJ: Erlbaum.

Orion, N., Ben-Chaim, D., & Kali, Y. (1997). Relationship between earth-science education and spatial visualization. Journal of Geoscience Education, 45, 129-132.

Pribyl, J. R. & Bodner, G. M. (1987). Spatial ability and its role in organic chemistry: A study of four organic courses. Journal of Research in Science Teaching, 24, 3, 229-240.

Rochford, K. (1985). Spatial learning disabilities and underachievement among university anatomy students. Medical Education, 19, 13-26.

Shea, D. L., Lubinski, D., & Benbow, C. P. (2001). Importance of accessing spatial ability in intellectually talented young adolescents: A 20-year longitudinal study. Journal of Educational Psychology, 93(3), 604-614.

Stull, A. T., Hegarty, M. Stieff, M. & Dixon, B. (2010). Concrete models as aids to representation translation of molecular diagrams? Presented at the Annual Meeting of the Cognitive Science Society, Portland

Wai, J., Lubinski, D., & Benbow, C. P. (2009). Spatial ability for STEM domains: Aligning over 50 years of cumulative psychological knowledge solidifies its importance . Journal of Educational Psychology, 101 (4), 817-835.

Webb, R. M., Lubinski, D., & Benbow, C. P. (2007). Spatial ability: A neglected dimension in talent searches for intellectually precocious youth. Journal of Educational Psychology, 99(2), 397-420.