Interdisciplinary Applied Mathematics

Скачать в pdf «Interdisciplinary Applied Mathematics»


Meinhart, C. D., Wereley, S. T., and Santiago, J. G. (2000). A PIV algorithm for estimating time-averaged velocity fields. J. Fluids Eng., 122:285-289.


Melvin, M. (1987). Electrophoresis. John Wiley and Sons Inc, London.


Mentor Graphics (1995). HDL-A Reference Manual.


Meyerovich, A. E. and Stepaniants, S. (1994). Transport phenomena at rough boundaries. Phys. Rev. Lett., 73:316.


Meyerovich, A. E. and Stepaniants, S. (1997). Ballistic transport in ultrathin channels and films with rough surfaces. J. Phys. Cond. Matt., 9:4157-4173.


Michaelides, E. E. (1997). Review — The transient equation of motion for particles, bubbles, and droplets. J. Fluids Eng., 119:233-247.


Miller, S. A. and Martin, C. R. (2002). Controlling the rate and direction of electroosmotic flow in template-prepared carbon nanotube membranes. J. Electroanal. Chem., 522(1):66-69.


Mitchell, M. J., Qiao, R., and Aluru, N. R. (2000). Meshless analysis of steady-state electro-osmotic transport. J. Microelectromech. Sys., 9 (4):435-449.


Miyazima, S., Meakin, P., and Family, F. (1987). Aggregation of oriented anisotropic particles. Phys. Rev. A, 36:1421-1427.


Mo, G. and Rosenberger, F. (1990). Molecular dynamics simulation of flow in a two dimensional channel with atomically rough walls. Phys. Rev. A, 42:46884692.


Molho, J., Herr, A., Mosier, B. P., Santiago, J. G., Kenny, T. W., Brennen, R. A., Gordon, G. B., and Mohammadi, B. (2001). Optimization of turn geometries for microchip electrophoresis. Anal. Chem., 73:1350-1360.


Molho, J., Herr, A. E., Desphande, M., Gilbert, J. R., Garguilo, M. G., Paul, P. H., John, P. M., Woudenberg, T. M., and Connel, C. (1998). Fluid transport mechanisms in micro fluidic devices. In ASME International Mechanical Engineering Congress and Exposition, pages 69-75.

Скачать в pdf «Interdisciplinary Applied Mathematics»

Метки