AMS Sectional Meeting Program by AMS Special Session
Current as of Sunday, October 17, 2010 00:33:02
Special Event or Lecture | Inquiries: meet@ams.org
2010 Fall Western Section Meeting
Los Angeles, CA, October 9-10, 2010 (Saturday - Sunday)
Meeting #1063
Associate secretaries: Michel L Lapidus, AMS lapidus@math.ucr.edu, lapidus@mathserv.ucr.edu
Special Session on Nonlinear Phenomena: Applications of PDEs to Fluid Flows
-
Saturday October 9, 2010, 8:00 a.m.-10:40 a.m.
Special Session on Nonlinear Phenomena: Applications of PDEs to Fluid Flows, I
BH 5273, Boelter Hall
Organizers:
Andrea Bertozzi, University of California Los Angeles bertozzi@math.ucla.edu
Nebojsa Murisic, University of California Los Angeles nebo@math.ucla.edu
David Uminsky, University of California Los Angeles duminsky@math.ucla.edu
-
8:00 a.m.
Viscous evolution of point vortex equilibria: The collinear state.
Fangxu Jing*, University of Southern California
Eva Kanso, University of Southern California
Paul K. Newton, University of Southern California
(1063-76-245) -
8:30 a.m.
A generalized Birkhoff-Rott equation for the 2D active scalar problems.
Hui Sun*, University of California, Los Angeles
David Uminsky, University of California, Los Angeles
Andrea Bertozzi, University of California, Los Angeles
(1063-76-162) -
9:00 a.m.
High-fidelity simulations and low-order modeling of vortex--body interactions in biomorphic locomotion.
Jeff D. Eldredge*, Mechanical and Aerospace Engineering, University of California, Los Angeles
Chengjie Wang, Mechanical and Aerospace Engineering, University of California, Los Angeles
(1063-76-126) -
9:30 a.m.
A multi-moment vortex method for 2D viscous fluids.
David T Uminsky*, UCLA Mathematics
Gene Wayne, Boston Unversity, Mathematics
Alethea Barbaro, UCLA Mathematics
Vitalii Ostrovskyi, USC Mathematics
(1063-76-259) -
10:00 a.m.
Stability of icosahedral configurations of point vortices on a sphere.
Vitalii Ostrovskyi*, University of Southern California
Paul Newton, University of Southern California
(1063-37-263) -
10:30 a.m.
Discussion
-
8:00 a.m.
-
Saturday October 9, 2010, 3:00 p.m.-5:20 p.m.
Special Session on Nonlinear Phenomena: Applications of PDEs to Fluid Flows, II
BH 5273, Boelter Hall
Organizers:
Andrea Bertozzi, University of California Los Angeles bertozzi@math.ucla.edu
Nebojsa Murisic, University of California Los Angeles nebo@math.ucla.edu
David Uminsky, University of California Los Angeles duminsky@math.ucla.edu
-
3:00 p.m.
A Primer of Swarm Equilibria.
Andrew J. Bernoff*, Department of Mathematics, Harvey Mudd College
Chad M. Topaz, Macalester College
(1063-35-244) -
3:30 p.m.
Continuum modeling and analysis of swarming with three interaction zones.
Louis F Rossi*, University of Delaware
Jennifer Miller, University of Delaware
Allison Kolpas, University of Delaware
Plinio Juchem Neto, University of Delaware
(1063-35-237) -
4:00 p.m.
Limiting PDEs for flocking models.
Alethea Barbaro*, UCLA
(1063-70-274) -
4:30 p.m.
Self-Similar Blowup Solutions to an Aggregation Equation.
Yanghong Huang*, Simon Fraser University
Andrea L. Bertozzi, University of California, Los Angeles
(1063-35-232) -
5:00 p.m.
Instantaneous mass concentration in solutions of the aggregation equation.
Thomas Laurent*, University of California, Riverside
(1063-35-189)
-
3:00 p.m.
-
Sunday October 10, 2010, 8:00 a.m.-10:40 a.m.
Special Session on Nonlinear Phenomena: Applications of PDEs to Fluid Flows, III
BH 5273, Boelter Hall
Organizers:
Andrea Bertozzi, University of California Los Angeles bertozzi@math.ucla.edu
Nebojsa Murisic, University of California Los Angeles nebo@math.ucla.edu
David Uminsky, University of California Los Angeles duminsky@math.ucla.edu
-
8:00 a.m.
Linear instability of plane parallel viscoelastic shear flows in the limit of infinite Weissenberg and Reynolds numbers.
Ahmed Ahmed kaffel*, Virginia Tech
Michael Renardy, Virginia Tech
(1063-76-29) -
8:30 a.m.
A Numerical Scheme for Particle-Laden Thin Film Flow in 2-D.
Matthew R. Mata*, University of California, Los Angeles
Andrea L Bertozzi, University of California, Los Angeles
(1063-76-214) -
9:00 a.m.
Particle-laden viscous thin-film flows.
Nebojsa Murisic*, Mathematics Department, University of California, Los Angles
Andrea Bertozzi, Mathematics Department, University of California, Los Angles
(1063-76-32) -
9:30 a.m.
Crossover in the coarsening rates in demixing of binary viscous fluids.
Felix Otto, Max Planck Institute for Mathematics in the Sciences
Christian Seis, Max Planck Institute for Mathematics in the Sciences
Dejan Slepcev*, Carnegie Mellon University
(1063-35-103) -
10:00 a.m.
The dynamics of instability of the fluid flow over a flat plate.
Fathi M Allan*, United Arab Emirates University
James H Curry, University of Colorado at Boulder
(1063-76-13) -
10:30 a.m.
Discussion
-
8:00 a.m.
-
Sunday October 10, 2010, 3:00 p.m.-5:10 p.m.
Special Session on Nonlinear Phenomena: Applications of PDEs to Fluid Flows, IV
BH 5273, Boelter Hall
Organizers:
Andrea Bertozzi, University of California Los Angeles bertozzi@math.ucla.edu
Nebojsa Murisic, University of California Los Angeles nebo@math.ucla.edu
David Uminsky, University of California Los Angeles duminsky@math.ucla.edu
-
3:00 p.m.
Computation of time-periodic water waves.
Jon Wilkening*, UC Berkeley Mathematics
(1063-76-181) -
3:30 p.m.
Boundary layer associated with the Darcy-Brinkman-Boussinesq model for convection in porous media.
James P Kelliher*, University of California Riverside
Roger M Temam, Indiana University, Institute for Scientific Computing and Applied Mathematics
Xiaoming Wang, Florida State University
(1063-76-250) -
4:00 p.m.
On qualitative analyses of non-linear Forchheimer flows in porous media and application.
Akif Ibragimov*, Texas Tech University
Luan Hoang, Texas Tech University, Department of Mathemathematics
Eugenio Aulisa, Texas Tech University, Department of Mathemathematics
(1063-35-104) -
4:30 p.m.
Longterm dynamics for well Productivity Index for nonlinear flows in porous media.
Lidia Bloshanskaya*, Texas Tech University
Eugenio Aulisa, Texas Tech University
(1063-76-138) -
5:00 p.m.
Discussion
-
3:00 p.m.
Inquiries: meet@ams.org