Separate but correlated: The latent structure of space and mathematics across development.

Mix, Kelly S.; Levine, Susan C.; Cheng, Yi Ming; Young, Chris; Hambrick, David Z.; Ping, Raedy M.; Konstantopoulos, Spyros

doi:10.1037/xge0000182

Cited by 253 publications

(312 citation statements)

References 146 publications

(188 reference statements)

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“…Spatial skills may be more important for individuals at an earlier stage of learning than those in later stages (Uttal & Cohen, ). During initial learning, or for individuals with lower levels of domain‐specific knowledge, a learner may use spatial processing to establish mental maps and models, or to problem solve (Mix et al ., ). In line with this, for example, Hambrick et al .…”

Section: Introductionmentioning

confidence: 97%

“…In addition to often cited examples of scientific discoveries resulting from creative spatial thought, a growing body of research with adults and adolescents highlights a more specific link between spatial ability and various aspects of science learning (e.g., Kozhevnikov & Thornton, ). However, in contrast to the spatial ability and mathematics literature (e.g., Mix et al ., ), the relationship between spatial ability and science learning in younger children has been largely neglected.…”

Section: Introductionmentioning

confidence: 99%

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Spatial cognition and science achievement: The contribution of intrinsic and extrinsic spatial skills from 7 to 11 years

Hodgkiss

Gilligan

Tolmie

et al. 2018

Brit J of Edu Psychol

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BackgroundPrior longitudinal and correlational research with adults and adolescents indicates that spatial ability is a predictor of science learning and achievement. However, there is little research to date with primary‐school aged children that addresses this relationship. Understanding this association has the potential to inform curriculum design and support the development of early interventions.AimsThis study examined the relationship between primary‐school children's spatial skills and their science achievement.MethodChildren aged 7–11 years (N = 123) completed a battery of five spatial tasks, based on a model of spatial ability in which skills fall along two dimensions: intrinsic–extrinsic; static–dynamic. Participants also completed a curriculum‐based science assessment.ResultsControlling for verbal ability and age, mental folding (intrinsic–dynamic spatial ability), and spatial scaling (extrinsic–static spatial ability) each emerged as unique predictors of overall science scores, with mental folding a stronger predictor than spatial scaling. These spatial skills combined accounted for 8% of the variance in science scores. When considered by scientific discipline, mental folding uniquely predicted both physics and biology scores, and spatial scaling accounted for additional variance in biology and variance in chemistry scores. The children's embedded figures task (intrinsic–static spatial ability) only accounted for variance in chemistry scores. The patterns of association were consistent across the age range.ConclusionSpatial skills, particularly mental folding, spatial scaling, and disembedding, are predictive of 7‐ to 11‐year‐olds’ science achievement. These skills make a similar contribution to performance for each age group.

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Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Spatial cognition and science achievement: The contribution of intrinsic and extrinsic spatial skills from 7 to 11 years

Hodgkiss

Gilligan

Tolmie

et al. 2018

Brit J of Edu Psychol

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“…Mix et al . () found that mental rotation best predicted mathematics performance in younger students, while spatial visualization was the best predictor of performance by grade 6 (especially place value, word problems, and algebra concepts). Other studies have revealed strong associations between visuospatial ability and performance on number line tasks (e.g., Simms, Clayton, Cragg, Gilmore, & Johnson, ), even when expertise is accounted for (Sella, Sader, Lolliot, & Cohen Kadosh, ).…”

Section: Introductionmentioning

confidence: 98%

Visuospatial training improves elementary students’ mathematics performance

Lowrie

Logan

Ramful

2017

Brit J of Edu Psychol

181

120

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“…Other studies emphasized that mathematics is one of the concepts that is mentally represented in a spatial format [45,46]. Moreover, the study by [47] detailed specific mathematical tasks that predicts the most variance in the spatial ability of children aged 5 to 13.…”

Section: Discussion On Holzinger Resultsmentioning

confidence: 99%

Stable Specification Search in Structural Equation Models with Latent Variables

Rahmadi

Groot

Heskes

2019

ACM Trans. Intell. Syst. Technol.

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In our previous study, we introduced stable specification search for cross-sectional data (S3C). It is an exploratory causal method that combines stability selection concept and multi-objective optimization to search for stable and parsimonious causal structures across the entire range of model complexities. In this study, we extended S3C to S3C-Latent, to model causal relations between latent variables. We evaluated S3C-Latent on simulated data and compared the results to those of PC-MIMBuild, an extension of the PC algorithm, the state-of-the-art causal discovery method. The comparison showed that S3C-Latent achieved better performance. We also applied S3C-Latent to real-world data of children with attention deficit/hyperactivity disorder and data about measuring mental abilities among pupils. The results are consistent with those of previous studies.

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Separate but correlated: The latent structure of space and mathematics across development.

Cited by 253 publications

References 146 publications

Spatial cognition and science achievement: The contribution of intrinsic and extrinsic spatial skills from 7 to 11 years

Spatial cognition and science achievement: The contribution of intrinsic and extrinsic spatial skills from 7 to 11 years

Visuospatial training improves elementary students’ mathematics performance

Stable Specification Search in Structural Equation Models with Latent Variables

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