Undergraduate Paper Session
‟The Interplay Between Relaxation time, Damping, and Blowup in the Breakdown of Solutions to an Equation from Fluid Dynamics” by
Shae Jolivette <shaejolivette@gmail.com>, University of North Georgia
(Accepted)
Coauthors:
‟The Interplay Between Relaxation time, Damping, and Blowup in the Breakdown of Solutions to an Equation from Fluid Dynamics” by
Shae Jolivette <shaejolivette@gmail.com>, University of North Georgia
(Accepted)
Coauthors:
Abstract:
We consider two nonlinear (damped and undamped) partial differential equations which model, among other systems from fluid dynamics, special solutions of the n-dimensional incompressible Euler equations. We show that the incorporation of damping effects may or may not suppress the finite-time blowup that occurs in solutions of the associated undamped equation. In particular, we discuss how the amount of damping required to suppress blowup is determined by a relaxation time which depends on the blowup time of solutions of the undamped system.
Scheduled for: 2026-03-28 11:00 AM: Undergraduate Paper Session #4.4 in Computing and Math 315