Interdisciplinary Applied Mathematics

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Rice, C. L. and Whitehead, R. (1965). Electro kinetic flow in a narrow cylindrical capillary. J. Phys. Chem., 69(11):4017-4023.


Richardson, S. (1973). On the no-slip boundary condition. J. Fluid Mech., 59:707.


Richetti, P., Prost, J., and Barois, P. (1984). Two-dimensional aggregation and crystallization of a colloidal suspension of latex spheres. J. Phys. Lett., 45:1137-1143.


Righetti, P., Gelfi, C., Verzola, B., and Castelletti, L. (2001). The state of art of dynamic coatings. Electrophoresis, 22:603-611.


Righetti, P. G. (1983). Isoelectric Focussing: Theory, Methodology and Applications. Elsevier Biomedical, Amsterdam.


Ristenpart, W. D., Aksay, I. A., and Saville, D. A. (2004). Assembly of colloidal aggregates by electrohydrodynamic flow: Kinetic experiments and scaling analysis. Phys. Rev. E, 69(021405).


Rittger, E. (1990a). Can three-atom potentials be determined from thermodynamic data? Mol. Phys., 69:867-894.


Rittger, E. (1990b). The chemical potential of liquid xenon by computer simulation. Mol. Phys., 69:853-865.


Rittger, E. (1990c). An empirical three-atom potential for xenon. Mol. Phys., 71:79-96.


Romero, L. A. and Yost, F. G. (1996). Flow in an open channel capillary. J. Fluid Mech., 322:109-129.


Ronceray, M. P. (1911). Recherches sur lecoulement dans les tubes capillaires. Annales de Chimie et de Physique, 22:107-125.


Rosenfeld, Y. (1993). Free energy model for inhomogeneous fluid mixtures; Yukawa charged hard spheres, general interactions, and plasmas. J. Chem. Phys., 98:8126-8148.


Rosenweig, R. E. (1987). Magnetic fluids. Ann. Rev Fluid Mech., 19:437-463.


Rothe, D. (1971). Electron-beam studies of viscous flow in supersonic nozzles. AIAA Journal, 9(5):804-811.


Roveda, R., Goldstein, D. B., and Varghese, P. L. (1998). Hybrid Euler/Particle approach for continuum/rarefied flows.    J. Spacecraft and Rockets, 35

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