Correlations Between Self-Estimated and Psychometrically Measured IQ
- 1 August 1999
- journal article
- research article
- Published by Taylor & Francis in The Journal of Social Psychology
- Vol. 139 (4) , 405-410
- https://doi.org/10.1080/00224549909598400
Abstract
Following J. Reilly and G. Mulhern (1995), the authors examined the relationship between self-estimated and psychometrically measured IQs in men and women. In this study, 53 male and 140 female British undergraduates estimated their overall IQs. About 4 months later, they completed a spatial-intelligence (mental-rotation) test. The men estimated their scores significantly higher (120) than the women did (116) and also obtained significantly higher test scores (6.94) than the women did (4.43). There was a very modest but significant correlation between self-estimated IQ and actual IQ score (r = .16). The correlation was significant for the men (r = .27, n = 53) but not for the women (r = .09, n = 140). Removal of a small number of outliers had no significant effect on the results.Keywords
This publication has 11 references indexed in Scilit:
- Men's and Women's Self-Estimates of IntelligenceThe Journal of Social Psychology, 1996
- Gender differences in self-estimated IQ: The need for care in interpreting group dataPersonality and Individual Differences, 1995
- Beyond sex differences in visuo‐spatial processing: The impact of gender trait possessionBritish Journal of Psychology, 1995
- Sex differences in intelligence and brain size: A paradox resolvedPersonality and Individual Differences, 1994
- Chapter 19 Gender differences in imagery, cognition, and memoryPublished by Elsevier ,1991
- Spatial ability at different times of dayPersonality and Individual Differences, 1988
- Emergence and Characterization of Sex Differences in Spatial Ability: A Meta-AnalysisChild Development, 1985
- Recognition of Upright and Inverted Faces: A Correlational StudyPerception, 1979
- IQ Self-Estimates of Males and FemalesThe Journal of Social Psychology, 1978
- Mental Rotation of Three-Dimensional ObjectsScience, 1971