Interdisciplinary Applied Mathematics

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Brodman, C. (1891). Untersuchungen ueber Reibungkoeffizienten zu Flues-sigkeiten. Dissertation, Goettingen.

Brovchenko, I. V., Geiger, A., and Paschek, D. (2001). Simulation of confined water in equilibrium with a bulk reservoir. Fluid Phase Equilibria, 183:331339.

Brown, H. S., Jolly, M. S., Kevrekidis, I. G., and Titi, E. S. (1990). Use of approximate inertial manifolds in bifurcation calculations. In D. Roose, et al., editor, Continuation and Bifurcations: Numerical Techniques and Applications. Kluwer Academic Press.

Bryzek, J., Petersen, K., and McCulley, W. (1994). Micromachines on the march. IEEE Spectrum, 31(5):20-31.

Buch, J. S., Wang, P. C., DeVoe, D. L., and Lee, S. L. (2001). Field-effect flow control in a polydimethylsiloxane-based microfluidic system. Electrophoresis, 22:3902-3907.

Bultheel, A. and Barvel, M. V. (1986). Pade techniques for model reduction in linear system theory: A survey. J. Comput. Appl. Math. Phys., 14:401-438.

Bungay, P. M. and Brenner, H. (1973). The motion of a closely-fitting sphere in a fluid-filled tube. Int. J. Multiphase Flow, 1:25-56.

Burak, Y. and Andelman, D. (2001). Discrete aqueous solvent effects and possible attractive forces. J. Chem. Phys., 114(7):3271-3283.

Burgdorfer, A. (1959). The influence of the molecular mean free path on the performance of hydrodynamic gas lubricated bearings. J. Basic Eng. Trans. ASME, 81:94-99.

Burgreen, D. and Nakache, F. R. (1964). Electrokinetic flow in ultrafine capillary silts. J. Phys. Chem., 68(5):1084-1091.

Cabrera, C. R., Finlayson, B., and Yager, P. (2001). Formation of natural pH gradients in a microfluidic device under flow conditions: Model and experimental validation. Anal. Chem., 73(3):658-666.

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