Cartwright, N. 1983. How the Laws of Physics Lie. Essays 7 and 8. Oxford: Oxford University Press.
Cartwright, N. 1989. Nature's Capacities and Their Measurement. Oxford: Oxford University Press.
Franklin, A. 1986. The Neglect of Experiment. New York: Cambridge University Press.
Giere, R. 1988. Constructing Science. Chicago: University of Chicago Press.
Goodman, N. 1968. Language of Arts. New York: Bobbs-Merrill.
Kaufmann, W. J., and Smarr, L. L.. 1993. Supercomputing and the Transformation of Science. New York: Scientific American Library.
Kuhn, T. 1977. “The Function of Measurement in Modern Physical Science.” In The Essential Tension: Selected Studies in Scient Tradition and Change, 178–224. Chicago: University of Chicago Press.
Laymon, R. 1985. “Idealizations and the Testing of Theories by Experimentation.” In Observation, Experiment and Hypothesis in Modern Physical Science, edited by Achinstein, P. and Hannaway, O., 147–173. Cambridge: Massachusetts Institute of Technology Press.
Laymon, R. 1990. “Computer Simulations, Idealizations and Approximations.” PSA (Philosophy of Science Association) 2:519–34.
Moin, P. and Kim, J.. 1997. “Tackling turbulence with supercomputers.” Scientific American 276 (1):62–68.
Moulton, F. R. 1970. An Introduction to Celestial Mechanics. New York: Dover.
Ramsey, J. L. 1990. “Beyond Numerical and Causal Accuracy: Expanding the Set of Justificational Criteria.” PSA 1:485–499.
Ramsey, J. L. 1992. “An Expanded Epistemology of Approximations.” PSA 1:154–66.
Shirayama, S., and Kuwahara, K.. 1990. “Flow Visualization in Computational Fluid Dynamics.” The International Journal of Supercomputer Applications 4(2):66–80.
Smarr, L. 1985. “An approach to complexity.” Science 228:403–408.
Wilhelmson, R. B., et al. 1990. “A study of the evolution of a numerically modeled severe storm.” The International Journal of Supercomputer Applications 4(2):20–36.