Interdisciplinary Applied Mathematics

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Spikes, H. and Granick, S. (2003). Equation for slip of simple liquids at smooth solid surfaces. Langmuir, 19:5065-5071.

Spoel, D., Buuren, A., Apol, E., Meulenhoff, P., Tieleman, D., Sijbers, A., Hess, B., Feenstra, K., Lindahl, E., Drunen, R., and Berendsen, H. (2001). Gro-macs User Manual version 3.0. Nijenborgh 4, 9747 AG Groningen, the Netherlands. Internet:

Spohr, E., Hartnig, C., Gallo, P., and Rovere, M. (1999). Water in porous glasses. a computer simulation study. J. Mol. Liquids, 80:165-178.

Spohr, E., Trokhymchuk, A., and Henderson, D. (1998). Adsorption of water molecules in slit pore. J. Electroa,na,l. Chem., 450:281-287.

Sreekanth, A. K. (1969). Slip flow through long circular tubes. In Trilling, L. and Wachman, H., editors, Proceedings of the Sixth International Symposium on Rarefied Gas Dynamics, volume 1, pages 667-680. Academic Press.

Srinivasan, V., Jog, A., and Fair, R. B. (2001). Scalable macromodels for microelectromechanical systems. In Modeling and Simulation of Microsystems, pages 72-75.

Steindl, A. and Troger, H. (2001). Methods for dimension reduction and their application in nonlinear dynamics. Intl. Journal of Solids and Structures, 38:2131-2147.

Stevens, M. J., Mondello, M., Grest, G. S., Cui, S. T., Cochran, H. D., and Cummings, P. T. (1997). Comparison of shear flow of hexadecane in a confined geometry. J. Chem. Phys., 106:7303-7314.

Stillinger, F. H. (1973). Structure in aqueous solutions of nonpolar solutes from the standpoint of scaled-particle theory. J. Solut. Chem., 2:141-158.

Stillinger, F. H. and Rahman, A. (1974). Improved simulation of liquid water by molecular dynamics. J. Chem. Phys., 60:1545-1557.

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