Published in Nunes,T (ed) Special Issue, ‘Giving Meaning to Mathematical Signs: Psychological,
Pedagogical and Cultural Processes‘ Human Development, Vol 52, No 2, April, pp. 129-
Papert, S. (2006) Afterword: After how comes What in R.K Sawyer (ed) The
Cambridge Handbook of the Learning Sciences. Cambridge University Press.
pp 581 - 586.
Radford, L. (2001). Factual, Contextual and Symbolic Generalizations in Algebra. In
Proceedings of the 25th Conference of the International Group for the
Psychology of Mathematics Education (Vol. 4, pp. 81-88). The Netherlands.
Roschelle, J., Penuel, W. R., & Abrahamson, L. (2004). The Networked Classroom.
Educational Leadership, 61(5), 50-54
Ruthven, K. (2009, in press). Mathematical technologies as a vehicle for intuition and
experiment: a foundational theme of the International Commission on
Mathematical Instruction, and a continuing preoccupation. International Journal
for the History of Mathematics Education 3(1).
Scardamalia, M., & Bereiter, C., (1996). Computer support for knowledge-building
communities. In T. Koschmann (Ed.), CSCL: Theory and practice of an emerging
paradigm (pp. 249-268). Mahwah, NJ: Lawrence Erlbaum.
Simpson, G., Hoyles, C., & Noss, R. (2005) Designing a programming-based
approach for modelling scientific phenomena Journal of Computer Assisted
Learning, 21, pp143-158
Stahl, G. (2001). Rediscovering CSCL. In T. Koschmann, R. Hall, N. Miyake (Eds.).
CSCL2: Carrying Forward the Conversation (p177-178) Mahwah, NJ: Lawrence
Erlbaum
Trouche, L. and Hivon, L. (in press) Connectivity: new challenges for the ideas of
webbing and orchestrations in Hoyles, C., & Lagrange, J.b. (eds),
Digital technologies and mathematics teaching and learning: Rethinking the
terrain, Springer
Trouche, L. (2005) Instrumental genesis, individual and social aspects in Guin,D.
Ruthven,K. & Trouche, L The Didactical Challenge of Symbolic Calculators:
Turing a Computational Device into a Mathematical Instrument Springer
Mathematics Education Library, pp 197-230
Weir, S. (1987). Cultivating Minds: A Logo Casebook. London: Harper & Row.
Wilensky, U. & Stroup, W. (1999). Learning through participatory simulations:
Network-based design for systems learning in classrooms. Proceedings of the
Computer Supported Collaborative Learning Conference (CSCL '99), Stanford,
California.
Wilensky, U. in press Concurrent Connectivity: Using NetLogo’s HubNet module to
enact classroom participatory simulations in Hoyles, C. & Lagrange, J.b. (eds),
Digital technologies and mathematics teaching and learning: Rethinking the
terrain, Springer
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