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Xu, Sheng - Department of Mathematics, Southern Methodist University
UNCORRECTED AML: 2785 Model 3G pp. 17 (col. fig: nil)
An iterative two-fluid pressure solver based on the immersed interface method
Fluid force and torque on a rigid object in an incompressible viscous flow
Manuscript submitted to Website: http://AIMsciences.org AIMS' Journals
235 Clements Hall Math Department, SMU
Interaction of freely moving particles in fluids 1 1. Introduction 3
A USER-FRIENDLY FORMULATION OF THE NEWTONIAN DYNAMICS FOR THE COUPLED
An Inverse Immersed Interface Method to Enforce the Prescribed Motion of Rigid
An immersed interface method for simulating the interaction of a fluid with moving boundaries
MATH 1337, Calculus I: One-Variable Differentiation (d) and Integration ( )
235 Clements Hall Math Department, SMU
Implemental Formulation of Newton Dynamics for Free Insect Flight
Assessment of inflow boundary conditions for compressible turbulent boundary layers
DISCRETE AND CONTINUOUS Website: www.aimSciences.org DYNAMICAL SYSTEMS
A boundary condition capturing immersed interface method for 3D rigid objects in a flow
Under consideration for publication in J. Fluid Mech. 1 Passive Wing Pitch Reversal in Insect Flight
J. Fluid Mech. (2003), vol. 478, pp. 1134. c 2003 Cambridge University Press DOI: 10.1017/S0022112002003324 Printed in the United Kingdom
