OverviewThe interdisciplinary study of Partial Differential Equations (PDEs) provides a major bridge between mathematics and many other disciplines in basic and applied sciences. A wide range of real life phenomena and devices are governed by and studied using PDE models, e.g. musical sound propagation versus shock waves, gentle water movement versus tsunamis, competition and coexistence of species in population dynamics, mid and longterm weather forecasts, the productivity of an enhanced oil recovery process, and pollutant cleanup in ground water ecology. These examples are traditionally modeled using Euler and NavierStokes systems in continuum mechanics, Boltzmann equations in kinetic theory, reactiondiffusion systems in biology and chemical engineering, and Maxwell’s equation in magnetohydrodynamics. The theoretical studies of such equations also have fundamental importance in modern mathematical physics and geometry. Some of the applications require more robust highresolution numerical methods supported by further theoretical understanding of the PDEs. The fiveday focused program will bring together both pure and applied mathematicians with a focus on research frontiers in the field of nonlinear PDEs. Selected snapshots (Click here for more photos)Organizers and program participants gather for a group photo.
One of the program cosponsors, Mr Benjamin C. Y. Fok (4th from right), joined the banquet with the group.
Coorganizer and Cosponsor

Department of Mathematics, The University of British Columbia 
Pacific Institute for the Mathematical Sciences (PIMS) 
Mr Benjamin C. Y. Fok (support for UBC participants through PIMS) 
Croucher Foundation 
School of Science, The Hong Kong University of Science and Technology 
Department of Mathematics, The Hong Kong University of Science and Technology 
The Hong Kong Mathematical Society 