Boulter, C. and Buckley, B. (2000) ‘Constructing a typology of models for science

education’, in Gilbert, J. and Boulter, C. (eds) Developing Models in Science Education. Dordrecht: Kluwer.

Bruckman, A. (1998) ‘Community support for constructionist learning’, Computer Supported Cooperative Work, 7 (1/2): 47–86. Bruckman, A. and de Bonte, A. (1997) ‘MOOSE goes to school: a comparison of three classrooms using a CSCL environment’. Proceedings of CSCL 97, Toronto, Canada, Dec 1997, http://www.cc.gatech.edu/~asb/papers/ cscl97.html

Carmichael, P. (2000) ‘Computers and the development of mental models’, in Gilbert, J. and Boulter, C. (eds) Developing Models in Science Education. Dordrecht: Kluwer.

Carmichael, P. (2003) ‘Teachers as researchers and teachers as software developers:

PATRICK CARMICHAEL

how use-case analysis helps build better educational software’, Curriculum Journal, 14 (1): 105–122.

Collela, V. (2000) ‘Participatory simulations: building collaborative understanding through immersive dynamic modelling’, Journal of the Learning Sciences, 9 (4): 471–500.

Collela, V., Klopfer, E. and Resnick, M. (2001) Adventures in Modelling: Exploring

Complex, Dynamic Systems with StarLogo. New York: Teachers’ College Press. DiSessa, A. (1986) Artificial worlds and real experience, Instructional Science, 14: 207–227. Feyerabend, P. (1978) Against Method. London: Verso. Feyerabend, P. (1987) Farewell to Reason. London: Verso. Gentner, D. and Gentner, D.R. (1983) ‘Flowing waters or teeming crows: mental

models of electricity’, in Gentner, D. and Stevens, A.L. (eds) Mental Models. Hillsdale, NJ: Lawrence Erlbaum.

Gilbert J. (1998) ‘Explaining with models’, in Ratcliffe, M. (ed.) ASE Guide to Secondary Science Education. Cheltenham: Stanley Thornes. Gilbert, J., Boulter, C. and Elmer, R. (2000) ‘Positioning models in science education and design and technology education’, in Gilbert, J. and Boulter, C. (eds) Developing Models in Science Education. Dordrecht: Kluwer.

Grosslight, L., Unger, C., Jay, E. and Smith, C. (1991) ‘Understanding models and their use in science: conceptions of middle and high school students and experts’, Journal of Research into Science Teaching, 28: 799–822.

Hanson, N. (1958) Patterns of Discovery. Cambridge: Cambridge University Press. Hesse, M. (1970) Models and Analogies in Science (2nd edn) Notre Dame, IN:

University of Notre Dame Press. Hesse, M. (1980) Revolutions and Reconstructions in the History of Science. Brighton: Harvester Press. Hounsell, D. and McCune, V. (2004) ‘The development of students’ ways of think- ing and practising in three final-year biology courses’. Paper presented at EARLI Second Biannual Assessment Conference, Bergen, 23–25 June 2004.

Johnson-Laird, P. (1983) Mental Models. Cambridge: Cambridge University Press. Kuhn, T. (1970) The Structure of Scientific Revolutions. Chicago: University of Chicago

Press. Kuhn, T.S. (1996) The Structure of Scientific Revolutions. Chicago: University of Chicago Press. Lakatos, I. (1970) Criticism and the Growth of Knowledge Cambridge: Cambridge University Press.

Lakatos, I. (1974) ‘Falsification and the methodology of scientific research pro- grams’, in Lakatos, I. and Musgrave, A. (eds) Criticism and the Growth of Know- ledge. Cambridge: Cambridge University Press.

Mellar, H., (1994) ‘Towards a modelling curriculum’, in Mellar, H., Boohan, R., Bliss, J., Ogborn, J. and Tompsett, C. (eds) (1994) Learning with Artificial Worlds: Computer Based Modelling in the Curriculum. London: Falmer Press.

Nersessian, N. (1992) ‘How do scientists think? Capturing the dynamics of con- ceptual change in science’, in Giere, R.N. (ed.) Cognitive Models in Science, XVI. Minnesota Studies in Philosophy of Science. Minneapolis: University of Min- nesota Press.

Papert, S. (1980) Mindstorms: Children, Computers and Powerful Ideas. New York: Basic Books.

DO COMPUTER CATS EVER REALLY DIE?

Popper, K. (1963) Conjectures and Refutations: The Growth of Scientific Knowledge. London: Routledge. Resnick, M. (1994) Turtles, Termites, and Traffic Jams: Explorations in Massively Paral- lel Microworlds. Cambridge, MA: MIT Press. Roth, W-M. (1999) ‘Authentic school science: intellectual traditions’, in McCormick, R. and Paechter, C. (eds) Learning and Knowledge. London: Paul Chapman.

White, B.Y. and Fredricksen, J.R. (1998) ‘Inquiry, modelling, and metacognition: making science accessible to all students’, Learning and Cognition, 16 (1): 3–118.