Interdisciplinary Applied Mathematics

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Svishchev, I. M., Kusalik, P. G., Wang, J., and Boyd, R. (1996). Polarizable point-charge model for water: Results under normal and extreme conditions. J. Chem. Phys., 105:4742-4750.

Swaminathan, T. N. and Hu, H. H. (2004). Particle interactions in electrophoresis due to inertia. J. Colloid Interface Sci., 273(1):324-330.

Szeri, A. Z. (1998). Fluid Film Lubrication: Theory and Design. Cambridge University Press, New York.

Tabor, D. (1991). Gases, Liquids and Solids. Cambridge Univ. Press, 3rd edition.

Tagawa, N. (1993). State of the art for flying head slider mechanisms in magnetic recording disk. Wear, 168:43.

Tai, Y. C., Fan, L. S., and Muller, R. S. (Salt Lake City, UT, February 1989). IC-processed micro-motors: design, technology, and testing. IEEE Micro Electro Mechanical System Workshop.

Takhistov, P., Indeikina, A., and Chang, H.-C. (2002). Electrokinetic displacement of air bubbles in microchannels. Phys. Fluids, 14(1):1-14.

Talanquer, V. (1997). A new phenomenological approach to gas-liquid nucleation based on the scaling properties of the critical nucleus. J. Chem. Phys., 106(23):9957-9960.

Tan, M.-L., Fischer, J. T., Chandra, A., Brooks, B. R., and Ichiye, T. (2003). A temperature of maximum density in soft sticky dipole water. Chem. Phys. Lett., 376:646-652.

Tang, C. W., Nguyen, T. H., and Howe, T. R. (1989). Laterally driven polysilicon resonant microstructures. Sens. Actuators, 20:25-32.

Tang, G. Y., Yang, C., Chai, J. C., and Gong, H. Q. (2004a). Joule heating effect on electroosmotic flow and mass species transport in a microcapillary. Int. J. Heat Mass Transfer, 47:215-227.

Tang, G. Y., Yang, C., Chai, J. C., and Gong, H. Q. (2004b). Numerical analysis of the thermal effect on electroosmotic flow and electrokinetic mass transport in microchannels. Analytica Chimica Acta, 507:27-37.

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