Interdisciplinary Applied Mathematics

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Vincenti, W. G. and Kruger, C. H. (1977). Introduction to Physical Gas Dynamics. Robert E. Krieger Publishing Company, Huntington, New York.


Vinogradova, O. I. (1995). Drainage of a thin liquid film confined between hydrophobic surfaces. Langmuir, 11:2213-2220.


Vinogradova, O. I. (1996). Hydrodynamic interaction of curved bodies allowing slip on their surfaces. Langmuir, 12:5963-5968.


Vinogradova, O. I. (1999). Slippage of water over hydrophobic surfaces. Int. J. Miner. Process., 56:31-60.


Voigt, P. and Wachutka, G. (1997). Electrofluidic microsystem modeling based on Kirchhoffian network theory. In Transducers 1997, pages 1019-1022.


Volpert, M., Mezic, I., Meinhart, C. D., and Dahleh, M. (1999). An actively controlled micromixer. In Proccedings of the ASME, MEMS, pp. 483-487, Nashville, TN.


von Smoluchowski, M. (1916). Drei vortrage uber Diffusion, Brownsche Moleku-larbewegung und Koagulation von Kolloidteilchen. Z. Phys., 17:557-585.


Wadsworth, D. C. and Erwin, D. A. (1992). Two-dimensional hybrid contin-uum/particle approach for rarefied flows. AIAA, 92-2975.


Waghe, A., Rasaiah, J. C., and Hummer, G. (2002). Filling and emptying kinetics of carbon nanotubes in water. J. Chem. Phys., 117:10789-10795.


Wagner, A. J. and Pagonabarraga, I. (2002). Lees-Edwards boundary conditions for Lattice Boltzmann. J. Stat. Phys., 107:521-537.


Walther, J. H., Jaffe, R., Halicioglu, T., and Koumoutsakos, P. (2001a). Carbon nanotubes in water: Structure characteristics and energies. J. Phys. Chem. B, 105:9980-9987.


Walther, J. H., Jaffe, R., Halicioglu, T., and Koumoutsakos, P. (2001b). Hydrophobic hydration of carbon nanotubes. Technical report, ETH, Zurich, Switzerland.


Washburn, E. W. (1921). The dynamics of capillary flow. Phys. Rev., 17(3):273-283.

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