Abstract
This experiment examined the effects of sex differences in the form of speed-accuracy curves on sex differences in rate of mental rotation. Eighty-nine subjects attempted 1,200 rotation problems similar to those used by Shepard and Metzler (1971). Stimulus exposure was varied systematically over a wide range, and response accuracy was determined at each exposure. Speed-accuracy curves were then fit using an exponential function similar to one proposed by Wickelgren (1977). Results showed that apparent differences between males and females in rate of rotation are explained by sex differences in the shape of the speed-accuracy curves, with females reaching asymptote sooner on trials requiring more rotation. Similar effects were obtained in a comparison of subjects high and low in spatial ability.
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This research was conducted under Grant No. 84R1P80 from the Research Initiation Program of the Air Force Office of Scientific Research and a grant from the Iowa Measurement Research Foundation. I am indebted to Paul Nichols for collecting the data, to H. D. Hoover and Steve Dunbar for assistance in deriving the model for the speed-accuracy curves, and to Jim Pellegrino for copies of the slides used as stimuli.
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Lohman, D.F. The effect of speed-accuracy tradeoff on sex differences in mental rotation. Perception & Psychophysics 39, 427–436 (1986). https://doi.org/10.3758/BF03207071
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DOI: https://doi.org/10.3758/BF03207071