Developmental predictors of fraction concepts and procedures.
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Russell Gersten | Lynn S Fuchs | Nancy C. Jordan | Robert S Siegler | L. Fuchs | R. Siegler | N. Jordan | R. Gersten | Nancy C Jordan | Nicole Hansen | Deborah Micklos | Nicole Hansen | Deborah Micklos
[1] Lynn S. Fuchs,et al. The Prevention, Identification, and Cognitive Determinants of Math Difficulty. , 2005 .
[2] Geetha B. Ramani,et al. Promoting broad and stable improvements in low-income children's numerical knowledge through playing number board games. , 2008, Child development.
[3] Janet B W Williams. Diagnostic and Statistical Manual of Mental Disorders , 2013 .
[4] Victoria Menzies,et al. A longitudinal analysis of estimation, counting skills, and mathematical ability across the first school year. , 2013, Developmental psychology.
[5] B. Tabachnick,et al. Using Multivariate Statistics , 1983 .
[6] Lynn S. Fuchs,et al. The cognitive correlates of third-grade skill in arithmetic, algorithmic computation, and arithmetic word problems , 2006 .
[7] P. Bryant,et al. Individual differences in conceptual and procedural knowledge when learning fractions. , 2010 .
[8] Michael D. Eiland,et al. Fostering At-Risk Preschoolers' Number Sense , 2009 .
[9] Lynn S. Fuchs,et al. Improving At-Risk Learners' Understanding of Fractions , 2013 .
[10] J. Stevens. Applied Multivariate Statistics for the Social Sciences , 1986 .
[11] Rebecca Bull,et al. Number games, magnitude representation, and basic number skills in preschoolers. , 2008, Developmental psychology.
[12] G. S. Wilkinson,et al. Wide Range Achievement Test 4 , 2016 .
[13] D. R. Smith,et al. CHAPTER 6 – Wechsler Individual Achievement Test , 2001 .
[14] L. Feigenson,et al. Preschoolers' Precision of the Approximate Number System Predicts Later School Mathematics Performance , 2011, PloS one.
[15] Aryn A Pyke,et al. Developmental and individual differences in understanding of fractions. , 2013, Developmental psychology.
[16] Nancy C. Jordan,et al. Using Kindergarten Number Sense to Predict Calculation Fluency in Second Grade , 2008, Journal of learning disabilities.
[17] J. Stevens,et al. Applied multivariate statistics for the social sciences, 4th ed. , 2002 .
[18] Steven A. Hecht,et al. Toward an information processing account of individual differences in fraction skills , 1998 .
[19] Mary K. Hoard,et al. Cognitive mechanisms underlying achievement deficits in children with mathematical learning disability. , 2007, Child development.
[20] R. Siegler,et al. Strategy choice procedures and the development of multiplication skill. , 1988, Journal of experimental psychology. General.
[21] Robert H. Tai,et al. The Two High-School Pillars Supporting College Science , 2007, Science.
[22] R. Siegler,et al. The Development of Numerical Estimation , 2003, Psychological science.
[23] S. Vosniadou,et al. Understanding the structure of the set of rational numbers: a conceptual change approach , 2004 .
[24] Julie L. Booth,et al. Numerical magnitude representations influence arithmetic learning. , 2008, Child development.
[25] S. Varma,et al. Dyscalculia: From Brain to Education , 2011, Science.
[26] Jacob Cohen,et al. Applied multiple regression/correlation analysis for the behavioral sciences , 1979 .
[27] Nancy C. Jordan,et al. Building Kindergartners' Number Sense: A Randomized Controlled Study. , 2012, Journal of educational psychology.
[28] Peter Bryant,et al. Individual differences in conceptual and procedural fraction understanding: the role of abilities and school experience. , 2012, Journal of experimental child psychology.
[29] Kimberley D. Lakes,et al. Categorical and Dimensional Definitions and Evaluations of Symptoms of ADHD: History of the SNAP and the SWAN Rating Scales. , 2012, The International journal of educational and psychological assessment.
[30] W. Hays. Using Multivariate Statistics , 1983 .
[31] Melissa E. Libertus,et al. Preschool acuity of the approximate number system correlates with school math ability. , 2011, Developmental science.
[32] L. Siegel,et al. Short-term memory, working memory, and inhibitory control in children with difficulties in arithmetic problem solving. , 2001, Journal of experimental child psychology.
[33] D. Sommers,et al. A longitudinal analysis , 1992 .
[34] Nancy C. Jordan,et al. Performance across different areas of mathematical cognition in children with learning difficulties. , 2001 .
[35] Kerry Lee,et al. The contributions of working memory and executive functioning to problem representation and solution generation in algebraic word problems , 2009 .
[36] Douglas Fuchs,et al. The contributions of numerosity and domain-general abilities to school readiness. , 2010, Child development.
[37] Joseph K. Torgesen,et al. Fraction Skills and Proportional Reasoning , 2007 .
[38] Robert S. Siegler,et al. Representational change and children’s numerical estimation , 2007, Cognitive Psychology.
[39] John O. Willis,et al. Wechsler Abbreviated Scale of Intelligence , 2014 .
[40] C. A. Rashotte,et al. Test of Word Reading Efficiency , 1999 .
[41] Steven A Hecht,et al. Sources of Group and Individual Differences in Emerging Fraction Skills. , 2010, Journal of educational psychology.
[42] Clarissa A. Thompson,et al. An integrated theory of whole number and fractions development , 2011, Cognitive Psychology.
[43] E. Spelke,et al. Language and Conceptual Development series Core systems of number , 2004 .
[44] Pamela M. Seethaler,et al. The Cognitive Predictors of Computational Skill with Whole versus Rational Numbers: An Exploratory Study. , 2011, Learning and individual differences.
[45] E. Pedhazur. Multiple Regression in Behavioral Research: Explanation and Prediction , 1982 .
[46] Paul R. Brandon,et al. Children’s Mathematics Achievement in Hawaii: Sex Differences Favoring Girls , 1987 .
[47] R. Little. A Test of Missing Completely at Random for Multivariate Data with Missing Values , 1988 .
[48] M. Noël,et al. Basic numerical skills in children with mathematics learning disabilities: A comparison of symbolic vs non-symbolic number magnitude processing , 2007, Cognition.
[49] Jeffrey Bisanz,et al. Multiple routes to solution of single-digit multiplication problems. , 1996 .
[50] Chaitanya Ramineni,et al. Development of number combination skill in the early school years: when do fingers help? , 2008, Developmental science.
[51] D. Geary,et al. Cognitive addition: strategy choice and speed-of-processing differences in young and elderly adults. , 1991, Psychology and aging.
[52] G. Burghardt,et al. Playing Linear Number Board Games — But Not Circular Ones — Improves Low-Income Preschoolers ’ Numerical Understanding , 2009 .
[53] R. Siegler,et al. Early Predictors of High School Mathematics Achievement , 2012, Psychological science.
[54] Justin Halberda,et al. Individual differences in non-verbal number acuity correlate with maths achievement , 2008, Nature.
[55] H. Lee Swanson,et al. Cross-Sectional and Incremental Changes in Working Memory and Mathematical Problem Solving. , 2006 .
[56] Julie L. Booth,et al. Developmental and individual differences in pure numerical estimation. , 2006, Developmental psychology.
[57] S. Hecht,et al. Patterns of strengths and weaknesses in children's knowledge about fractions. , 2012, Journal of experimental child psychology.
[58] Douglas Fuchs,et al. Intensive Intervention for Students with Mathematics Disabilities: Seven Principles of Effective Practice , 2008, Learning disability quarterly : journal of the Division for Children with Learning Disabilities.
[59] R. Kail,et al. Sources of developmental change in children's word-problem performance. , 1999 .
[60] D. Geary. Mathematics and Learning Disabilities , 2004, Journal of learning disabilities.
[61] Robert S. Siegler,et al. The relation between conceptual and procedural knowledge in learning mathematics: A review , 2021, The Development of Mathematical Skills.
[62] Daniel Ansari,et al. Mapping numerical magnitudes onto symbols: the numerical distance effect and individual differences in children's mathematics achievement. , 2009, Journal of experimental child psychology.
[63] Steven A Hecht,et al. Sources of individual differences in fraction skills. , 2003, Journal of experimental child psychology.
[64] Fruzsina Soltész,et al. Relationships between magnitude representation, counting and memory in 4- to 7-year-old children: A developmental study , 2010, Behavioral and Brain Functions.