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Journal for the Study of Education and Development
Infancia y Aprendizaje
Volume 42, 2019 - Issue 2
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Guest Paper / Artículo Invitado

MathemAntics: a model for computer-based mathematics education for young children / MathemAntics: un modelo de enseñanza de matemáticas asistida por ordenador para niños

Herbert P. GinsburgColumbia UniversityCorrespondence[email protected]
,
Renqiuwen (Eileen) WuColumbia University
&
Julie S. DiamondCity College of New York
Pages 247-302 | Received 18 Sep 2018, Accepted 15 Feb 2019, Published online: 02 May 2019

References / Referencias

  • Atweh, B., & Bland, D. (2005). Mathematics through/for understanding social life: Productive pedagogies meets critical mathematics. Paper presented at the Mathematic Education and Society Proceedings of the 4th International Conference, Brisbane.
  • Bang, M. (1996). Ten, nine, eight. New York, NY: Tupelo Books.
  • Barshay, J. (2016, December 6). U.S. now ranks near the bottom among 35 industrialized nations in math. The Hechinger Report. Retrieved from https://hechingerreport.org/u-s-now-ranks-near-bottom-among-35-industrialized-nations-math/
  • Byrnes, J. P., & Wasik, B. A. (2009). Factors predictive of mathematics achievement in kindergarten, first and third grades: An opportunity-propensity analysis. Contemporary Educational Psychology, 34, 167–183.
  • Center for Universal Education at Brookings and UNESCO Institute for Statistics. (2013). Toward universal learning: What every child should learn. Washington, DC.
  • Christelow, E. (1989). Five little monkeys jumping on the bed. New York, NY: Clarion Books.
  • Claessens, A., Duncan, G., & Engel, M. (2009). Kindergarten skills and fifth-grade achievement: Evidence from the ECLS-K. Economics of Education Review, 28, 415–427.
  • Clements, D. H., & Sarama, J. (2002). Teaching with computers in early childhood education: Strategies and professional development. Journal of Early Childhood Teacher Education, 23, 215–226.
  • Clements, D. H., & Sarama, J. (2007). Effects of a preschool mathematics curriculum: Summative research on the building blocks project. Journal for Research in Mathematics Education, 38, 136–163.
  • Cross, C. T., Woods, T. A., & Schweingruber, H. (Eds.). (2009). Mathematics learning in early childhood: Paths toward excellence and equity. Washington, DC: National Academy Press.
  • Denton, K., & West, J. (2002). Children’s reading and mathematics achievement in kindergarten and first grade. Washington, DC: National Center for Education Statistics.
  • Duncan, G., & Magnuson, K. (2011). In whither opportunity: Rising inequality, schools, and children’s life chances. New York, NY: Russell Sage.
  • Duncan, G. J., Dowsett, C. J., Claessens, A., Magnuson, K., Huston, A. C., Klebanov, P., & Japel, C. (2007). School readiness and later achievement. Developmental Psychology, 43, 1428–1446.
  • Duncan, G. J., & Magnuson, K. A. (2005). Can family socioeconomic resources account for racial and ethnic test score gaps? The Future of Children, 15, 35–54.
  • Geary, D. C., Hoard, M. K., Nugent, L., & Bailey, D. H. (2013). Adolescents’ functional numeracy is predicted by their school entry number system knowledge. PLoS ONE, 8(1), e54651.
  • Gee, J. P. (2003). What video games have to teach us about learning and literacy. New York, NY: Palgrave Macmillan.
  • Ginsburg, H. P., Carpenter, K. K., & Labrecque, R. (2011). Introduction to MathemAntics: Software for children from age 3 to grade 3. Paper presented at the International Society for Design and Development Conference, Boston, MA.
  • Ginsburg, H. P., Jamalian, A., & Creighan, S. (2013). Cognitive guidelines for the design and evaluation of early mathematics software: The example of MathemAntics. In L. D. English, & J. T. Mulligan (Eds.), Reconceptualizing early mathematics learning (pp. 83–120). Dordrecht: Springer Publishing Company.
  • Ginsburg, H. P., Labrecque, R., Carpenter, K., & Pagar, D. (2015). New possibilities for early mathematics education: Cognitive guidelines for designing high-quality software to promote young children’s meaningful mathematics learning. In A. Dowker, & R. C. Kadosh (Eds.), Oxford handbook of mathematical cognition (pp. 1055–1078). Oxford: Oxford University Press.
  • Ginsburg, H. P., Lee, J. S., & Boyd, J. S. (2008). Mathematics education for young children: What it is and how to promote it. Society for Research in Child Development Social Policy Report- Giving Child and Youth Development Knowledge Away, 22(1), 1–24.
  • Ginsburg, H. P., & Pappas, S. (2004). SES, ethnic, and gender differences in young childrens informal addition and subtraction: A clinical interview investigation. Journal of Applied Developmental Psychology, 25, 171–192.
  • Ginsburg, H. P., & Pappas, S. (2016). Invitation to the birthday party: Rationale and description. ZDM Mathematics Education, 48, 947–960.
  • Ginsburg, H. P., Pappas, S., & Seo, K.-H. (2001). Everyday mathematical knowledge: Asking young children what is developmentally appropriate. In S. L. Golbeck (Ed.), Psychological perspectives on early childhood education: Reframing dilemmas in research and practice (pp. 181–219). Mahwah, NJ: Lawrence Erlbaum Associates.
  • Haugland, S. (1999). Computers and young children: The newest software that meets the developmental needs of young children. Early Childhood Education Journal, 26, 245–254.
  • Holloway, S. D., Rambaud, M. F., Fuller, B., & Eggers-Piérola, C. (1995). What is “appropriate practice” at home and in child care? Low-income mothers views on preparing their children for school. Early Childhood Research Quarterly, 10, 451–473.
  • Hoyles, C., & Noss, R. (2009). The technological mediation of mathematics and its learning. Human Development, 52, 129–147.
  • Jordan, N. C., Kaplan, D., Olah, L. N., & Locuniak, M. N. (2006). Number sense growth in kindergarten: A longitudinal investigation of children at risk for mathematics difficulties. Child Development, 77, 153–175.
  • Kilpatrick, J., Swafford, J., & Findell, B. (Eds.). (2001). Adding it up: Helping children learn mathematics. Washington, DC: National Academy Press.
  • Koontz, K. L., & Berch, D. B. (1996). Identifying simple numerical stimuli: Processing inefficiencies exhibited by arithmetic learning disabled children. Mathematical Cognition, 2, 1–23.
  • Larkin, K. (2013). Mathematics education. Is there an app for that? Paper presented at the Mathematics Education: Yesterday, Today and Tomorrow (Proceedings of the 36th annual conference of the Mathematics Education Research Group of Australasia), Melbourne, MERGA.
  • Larkin, K. (2015). “An App! An App! - My Kingdom for an App”: An 18 month quest to determine whether apps support mathematical knowledge building. In T. Lowrie & R. Jorgensen (Eds.), Digital games and mathematics learning: Potential, promises and pitfalls (pp. 251–276). New York, NY: Springer Press.
  • Lee, Y., Park, Y. S., & Ginsburg, H. (2016). Socio-economic status differences in mathematics accuracy, strategy use, and profiles in the early years of schooling. ZDM, 48, 1065–1078.
  • Lott, B. (2001). Low-income parents and the public schools. Journal of Social Issues, 57, 247–259.
  • Menotti, A., & Labat, Y. C. (2012). How many jelly beans? San Francisco,: Chronicle Books.
  • National Council of Teachers of Mathematics. (2000). Principles and standards for school mathematics. Reston, VA: Author.
  • National Governors Association Center for Best Practices & Council of Chief State School Officers. (2010). Common Core State Standards for Mathematics. Washington, DC: Author.
  • OECD. (2016). PISA 2015 results (volume I): Excellence and equity in education, PISA. Paris: Author. doi:10.1787/9789264266490-en
  • Papert, S. (1980). Mindstorms: Children, computers, and powerful ideas. New York, NY: Basic Books, Inc. Publishers.
  • Piaget, J. (1952). The origins of intelligence in children. (M. Cook, Trans.). New York, NY: International Universities Press.
  • Power Math Apps. (2014). (version 2.0.0) [mobile application software]. Retrieved from https://itunes.apple.com/us/app/my-math-app-flashcards/id887046920?mt=8
  • Romano, E., Babchishin, L., Pagani, L. S., & Kohen, D. (2010). School readiness and later achievement: Replication and extension using a nationwide Canadian survey. Developmental Psychology, 46, 995–1007.
  • Sarama, J., & Clements, D. H. (2004). Building Blocks for early childhood mathematics. Early Childhood Research Quarterly, 19, 181–189.
  • Sarama, J., & Clements, D. H. (2009). Early childhood mathematics education research: Learning trajectories for young children. New York, NY: Routledge.
  • Schwartz, D. M., & Kellogg, S. (2012). How much is a million? New York, NY: Paw Prints.
  • Serow, P., Callingham, R., & Tout, D. (2016). Assessment of mathematics learning: What are we doing? In K. Makar, S. Dole, M. Goos, J. Visnovska, A. Bennison, & K. Fry (Eds.), Research in mathematics education in Australasia 2012–2015 (pp. 1–19). Dordrecht: Springer.
  • Sinclair N. (2018) Time, immersion and articulation: Digital technology for early childhood mathematics. In I. Elia, J. Mulligan, A. Anderson, A. Baccaglini-Frank, & C. Benz (Eds.), Contemporary Research and Perspectives on Early Childhood Mathematics Education (pp. 205–221). ICME-13 Monographs. Switzerland: Springer-Cham.
  • Sinclair, N., & Heyd-Metzuyanim, E. (2014). Learning number with TouchCounts: The role of emotions and the body in mathematical communication. Technology, Knowledge and Learning, 19, 81–99.
  • Sinclair, N., & Moss, J. (2012). The more it changes, the more it becomes the same: The development of the routine of shape identification in dynamic geometry environments. International Journal of Education Research, 51-52, 28–44.
  • Starkey, P., & Klein, A. (2008). Sociocultural influences on young children’s mathematical knowledge. In O. N. Saracho, & B. Spodek (Eds.), Contemporary perspectices on mathematics in early childhood education (pp. 253–276). Charlotte, NC: Information Age.
  • Starkey, P., Klein, A., & Wakeley, A. (2004). Enhancing young children’s mathematical knowledge through a pre-kindergarten mathematics intervention. Early Childhood Research Quarterly, 19, 99–120.
  • Su, L., & Wang, N. (2005a). Elementary mathematics textbook (Vols 1–6). Nanjing: Jiang Su Education Press.
  • van Den Heuvel-Panhuizen, M., & Elia, I. (2012). Developing a framework for the evaluation of picture books that support kindergartners’ learning of mathematics. Research in Mathematics Education, 14, 17–47.
  • Vygotsky, L. S. (1986). Thought and language. (A. Kozulin, Trans.). Cambridge, MA: The MIT Press.
  • Wang, L., Li, X., & Li, N. (2014). Socio-economic status and mathematics achievement in China: A review. ZDM Mathematics Education, 46, 1051–1060.
  • Watts, T. W., Duncan, G. J., Siegler, R. S., & Davis-Kean, P. E. (2014). What’s past is prologue: Relations between early mathematics knowledge and high school achievement. Educational Researcher, 43, 352–360.
  • Wilson, A. J., Dehaene, S., Pinel, P., Revkin, S. K., Cohen, L., & Cohen, D. (2006). Principles underlying the design of “The Number Race”, an adaptive computer game for remediation of dyscalculia. Behavioral and Brain Functions, 2(19), 20–36.
  • Wilson, A. J., Revkin, S. K., Cohen, D., Cohen, L., & Dehaene, S. (2006). An open trial assessment of “The Number Race”, an adaptive computer game for remediation of dyscalculia. Behavioral and Brain Functions, 2(20), 1–14.
  • Zur, O., & Gelman, R. (2004). Young children can add and subtract by predicting and checking. Early Childhood Research Quarterly, 19, 121–137.

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