Mediating Role of Fluid Intelligence Between Working Memory and Academic Achievement of University Undergraduates: Does Gender Matter?
DOI:
https://doi.org/10.22555/joeed.v8i2.527Keywords:
working memory, fluid intelligence, academic achievement, genderAbstract
The present study examined the mediating role of fluid intelligence between working memory (WM) and academic achievement and tested the invariance of this model across gender in a random sample of university students (N = 560, 228 boys & 332 girls). Heart and Flower task (Diamond, 2013) and Raven’s Standard Progressive MatricesTM Plus (Raven, 1998) were used to operationalize WM and fluid intelligence, respectively. Academic achievement was operationalized through the CGPAs of students. Findings of the path analysis suggested that fluid intelligence mediated between WM and CGPA. Test of the model invariance indicated that fluid intelligence was a stronger predictor of academic achievement for boys as compared to the girls, which suggested that the indirect effect of WM on academic achievement through fluid intelligence was stronger for boys. Significant gender differences were observed as girls’ mean scores on WM and academic achievement were higher than those of the boys.
References
Abu-Rabia, S. (2003). The influence of working memory on reading and creative writing
processes in a second language. Educational Psychology, 23(2), 209-222.
Alloway, T. P., & Alloway, R. G. (2010). Investigating the predictive roles of working
memory and IQ in academic attainment. Journal of Experimental Child Psychology,
(1), 20-29.
Alloway, T. P., & Passolunghi, M. C. (2011). The relationship between working memory,
IQ, and mathematical skills in children. Learning and Individual Differences,
Davidson, M. C., Amso, D., Anderson, L. C., & Diamond, A. (2006).
Development of cognitive control and executive functions from 4 to 13
years: Evidence from manipulations of memory, inhibition, and task
switching. Neuropsychologia, 44(11), 2037-2078.
Deary, I. J., Strand, S., Smith, P., & Fernandes, C. (2007). Intelligence and
educational achievement. Intelligence, 35(1), 13-21.
DeStefano, D., & LeFevre, J. A. (2004). The role of working memory in mental
arithmetic. European Journal of Cognitive Psychology, 16(3), 353-386.
Diamond, A. (2012). Activities and programs that improve children’s executive
functions. Current Directions in Psychological Science, 21(5), 335-341.
Diamond, A. (2013). Executive functions. Annual review of psychology, 64(1),
-168.
Engle, R. W., & Kane, M. J. (2004). Executive attention, working memory capacity,
and a two-factor theory of cognitive control. Psychology of Learning and
Motivation, 44(1), 145-200.
Entwisle, D. R., Alexander, K. L., & Olson, L. S. (2007). Early schooling: The
handicap of being poor and male. Sociology of Education, 80(2), 114-138.
Fortin, N. M., Oreopoulos, P., & Phipps, S. (2015). Leaving boys behind gender
disparities in high academic achievement. Journal of Human Resources,
(3), 549-579.
Furnham, A., & Buchanan, T. (2005). Personality, gender and self-perceived
intelligence. Personality and Individual Differences, 39(3), 543-555.
Furnham, A., Rakow, T., Sarmany-Schiller, & De Fruyt, F. (1999). European
differences in self-perceived multiple intelligences. European Psychologist,
(1), 131-138.
Gathercole, S. E., Durling, E., Evans, M., Jeffcock, S., & Stone, S. (2008). Working
memory abilities and children’s performance in laboratory analogues of
classroom activities. Applied Cognitive Psychology: The Official Journal
of the Society for Applied Research in Memory and Cognition, 22(8), 1019-
Swanson, H. L., & Sachse-Lee, C. (2001). Mathematical problem solving and working
memory in children with learning disabilities: Both executive and phonological
processes are important. Journal of Experimental Child Psychology, 79(3), 294-
Traverso L, Viterbori P and Usai MC (2015) Improving executive function in childhood:
evaluation of a training intervention for 5-year-old children. Frontier Journal of
Psychology, 6(1), 525-530.
Unsworth, N. (2010). On the division of working memory and long-term memory and their
relation to intelligence: A latent variable approach. Acta Psychologica, 134(1), 16-
Unsworth, N., & Engle, R. W. (2007). The nature of individual differences in working
memory capacity: Active maintenance in primary memory and controlled search
from secondary memory. Psychological Review, 114(1), 104-110.
Unsworth, N., Brewer, G. A., & Spillers, G. J. (2009). There’s more to the working
memory capacity—fluid intelligence relationship than just secondary memory.
Psychonomic Bulletin & Review, 16(5), 931-937.
Unsworth, N., Fukuda, K., Awh, E., & Vogel, E. K. (2014). Working memory and fluid
intelligence: Capacity, attention control, and secondary memory retrieval.
Cognitive Psychology, 71(1), 1-26.
Wilhelm, O., Hildebrandt, A., & Oberauer, K. (2013). What is working memory capacity,
and how can we measure it? Frontiers in Psychology, 433(4), 243-250.
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