Marshall University Math Colloquium

 

 

Friday, October 8, 3:00 P.M.

Smith Hall 509

 

Ralph Oberste-Vorth

Marshall University

From Chaos to Stability: Dynamic Equations Parameterized by Time Scales

Abstract: Consider the logistic initial value problems
MATH
For the differential equation, $x(t) = 3/4$is a stable equilibrium. In forwards time (i.e., as $t \to+\infty$), for $x_{0} \in(0,1)$, all trajectories tend towards $3/4$. Finding a solution of the difference equation is equivalent to iterating the function
MATH
Orbits in $[0,1]$are chaotic except for countably many periodic and pre-periodic orbits. Our long-term goal is to try to understand the differences in behavior between solutions of differential and difference equations as "limits" and "bifurcations" over the underlying domains of the solutions. We use the theory of time scales, developed by S. Hilger in 1988, to do this. The set of closed subsets of MATH, MATH, is a parameter space for the corresponding dynamic equations
MATH
The time scales for the forward solutions of the differential equation and the difference equation are $\QTR{Bbb}{R_{+}}$and $\QTR{Bbb}{Z_{+}}$, respectively.

This is joint work with E. R. Duke, K. J. Hall, and B. A. Lawrence.

 

 

Students! Remember, only the speaker will understand everything! :)

 

Snacks will be served.

 

Next Colloquium: October 22.