Interdisciplinary Applied Mathematics

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Greenwood, P. A. and Greenway, G. M. (2002). Sample manipulation in micro total analytical systems. Trends in Analytical Chemistry, 21:726-740.


Griffiths, S. K. and Nilson, R. H. (1999). Hydrodynamic dispersion of a neutral nonreacting solute in electroosmotic flow. Anal. Chem., 71:5522-5529.


Griffiths, S. K. and Nilson, R. H. (2000). Electroosmotic fluid motion and latetime solute transport for large zeta potentials. Anal. Chem., 72:4776-4777.


Grisnik, T. A., Smith, S. P., and Saltz, L. E. (1987). Experimental study of low Reynolds number nozzles. In Paper AIAA 87-0992, 19th AIAA/DGLR/JSASS International Electric Propulsion Conference.


Groot, R. D. and Warren, P. B. (1997). Dissipative particle dynamics: Bridging the gap between atomistic and mesoscopic simulation. J. Chem. Phys., 107(11):4423-4435.


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Gubskaya, A. V. and Kusalik, P. G. (2002). The total molecular dipole moment for liquid water. J. Chem. Phys., 117:5290-5302.


Gulczinski, F. S., Dulligan, M. J., Lake, J. P., and Spanjer, G. G. (2000). Micropropulsion research at AFRL. In AIAA-2000-3255.


Haberman, W. L. and Sayre, R. M. (1958). Motion of rigid and fluid spheres in stationary and moving liquids inside cylindrical tubes. David Taylor Model Basin Report 1143, U.S. Navy Dept., Washington D.C.


Hadjiconstantinou, N. G. (1999). Hybrid atomistic-continuum formulations and the moving contact-line problem. J. Comp. Phys., 154:245-265.


Hadjiconstantinou, N. G. (2000). Analysis of discretization in the DSMC. Phys. Fluids, 12:2634.


Hadjiconstantinou, N. G. (2003a). Comment on Cercignani’s second-order slip coefficient. Phys. Fluids, 15(8):2352-2354.


Hadjiconstantinou, N. G. (2003b). Dissipation in small scale gasous flows. J. Heat Transfer, 125:944-947.

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