Abstract
Previous studies found that children are able to perform mental rotation (MR) tasks with a gender difference from the age of 4. More recently, gender differences in MR were also reported in infancy. However, different kinds of paradigms and stimuli were used. The present study investigates whether the Vandenberg and Kuse Mental Rotation Test (VMRT; Vandenberg & Kuse, 1978) as well as another similar 2-dimensional stimuli test may be used with elementary and middle-school children, and whether gender differences are evidenced. Results show that boys outperform girls in the middle-school group only. Elementary school children encountered difficulties solving both the VMRT and 2D MR tests. The data confirmed recent results showing that gender differences in the VMRT performance were found at age 10. We further concluded that the VMRT and 2D MR tests may not be well-designed for elementary-school children. Further investigations should focus on gender differences in MR for children younger than 9 years old as well as on the underlying causes of such difference, using other experimental paradigms.
References
1989). The role of experience in spatial test performance: A meta-analysis. Sex Roles, 20, 327–345.
(1989). Children’s mental rotations of abstract displays. Journal of Experimental Child Psychology, 47, 47–71.
(1992). Family handedness as a predictor of mental rotation ability among minority girls in a math-science training program. Brain and Cognition, 18, 88–96.
(1997). A large sex difference on a two-dimensional mental rotation task. Behavioral Neuroscience, 111, 845–849.
(2006). The importance of gesture in children’s spatial reasoning. Developmental Psychology, 42, 1259–1268.
(2008). Quantitative and qualitative change in children’s mental rotation performance. Learning and Individual Differences, 18, 419–429.
(2008). A note on sex differences in mental rotation in different age groups. Intelligence, 36, 556–563.
(2010). Preschoolers’ mental rotation: Sex differences in hemispheric asymmetry. Journal of Cognitive Neuroscience, 22, 1244–1250.
(1990). Variations in sex-related cognitive abilities across the menstrual cycle. Brain and Cognition, 14, 26–43.
(2005). Hemispheric asymmetry in spatial attention across the menstrual cycle. Neuropsychologia, 43, 1559–1567.
(2008). Sex differences in mental rotation with polygons of different complexity: Do men utilize holistic processes whereas women prefer piecemeal ones? Quarterly Journal of Experimental Psychology, 61, 683–689.
(2009). Enhancement of mental rotation abilities and its effect on anatomy learning. Teaching and Learning in Medicine, 21, 201–206.
(1987). Spatial tasks: A study of representation and transformation processes. Unpublished MA Thesis, York University, UK.
(1987). Developmental patterns of spatial ability: An early sex difference. Child Development, 58, 725–740.
(1985). Mental rotation of representations of two-dimensional and three-dimensional objects. Canadian Journal of Psychology, 39, 100–129.
(2002). Women and men exhibit different cortical activation patterns during mental rotation tasks. Neuropsychologia, 4013, 2397–2408.
(1990). Age differences in imagery ability. Child Development, 61, 995–1010.
(1999). Early sex differences in spatial skill. Developmental Psychology, 35, 940–949.
(1985). Emergence and characterization of sex differences in spatial ability: A meta-analysis. Child Development, 56, 1479–1498.
(1975). Development of kinetic images: When does the child first represent movement in mental images? Cognitive Psychology, 7, 548–559.
(1977). Mental rotation and number conservation: Are they related? Developmental Psychology, 13, 320–325.
(2008). Mental rotation in human infants: A sex difference. Psychological Science, 19, 1063–1066.
(1995). A redrawn Vandenberg and Kuse mental rotation test: Different versions and factors that affect performance. Brain and Cognition, 28, 39–58.
(1994). Effects of video game playing on measures of spatial performance: Gender effects in late adolescence. Journal of Applied Developmental Psychology, 15, 33–58.
(2006). The relationship between computer-game preference, gender, and mental-rotation ability. Personality and Individual Differences, 40, 609–619.
(2008). A sex difference in mental rotation in young infants. Psychological Science, 19, 1067–1070.
(2007). Functional anatomy of visuo-spatial working memory during mental rotation is influenced by sex, menstrual cycle, and sex steroid hormones. Neuropsychologia, 45, 3203–3214.
(2004). Does egocentric mental rotation elicit sex differences? Neuroimage, 23, 1440–1449.
(1971). Mental rotation of three dimensional objects. Science, 171, 701–703.
(1988). Mental rotation: Effects of dimensionality of objects and type of task. Journal of Experimental Psychology, 14, 3–11.
(1958). Manual for the primary mental abilities. Chicago, IL: Science Research Associates.
(2010a). Mental rotation performance and the effect of gender in fourth graders and adults. European Journal of Developmental Psychology, 7, 432–444.
(2010b). Mental rotation performance in fourth graders: No effects of gender beliefs (yet?). Learning and Individual Differences, 20, 459–463.
(1978). Mental rotation, a group test of 3-D spatial visualization. Perceptual and Motor Skills, 47, 599–604.
(1996). Sex difference in visual spatial ability in 9-year-old children. Intelligence, 23, 33–43.
(1989, April). Reconstruction of abstract shapes. Presentation at the National Biennial Meeting of the Society for Research in Child Development, Kansas City, MO, USA.
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