Abstract
Extensive evidence has suggested mathematical skill in early childhood is a robust predictor of children's later academic skills and eventual labor market outcomes; however, there is substantial heterogeneity in the degree to which different students learn from the same instructional contexts. Using data from N = 12,082 children enrolled in the Early Childhood Longitudinal Study-Kindergarten Cohort, this paper employs a latent piecewise growth curve modeling approach to investigate the role of classroom math instruction and executive function and approaches to learning in the development of mathematical skills in kindergarten, first, and second grade. Findings suggest that overall instructional frequency relates to math development in kindergarten through second, and that this is driven by exposure to advanced content in kindergarten. Further, executive function moderates children's learning in kindergarten, such that children with higher levels of executive function benefit more from instruction than do those with lower levels.
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