Contact PSU | PSU FAQs
future students current students faculty + staff Alumni + Friends
Fariborz Maseeh Department of Mathematics + Statistics
  • Contact
  • Sitemap
Classes & Programs
  • Placement and Admissions
    • Placement Information
    • Placement Chart (pdf) for guidance.
    • Admission Information
      • University Admission Information
      • Masters Degree Admission Information
  • Course Information
    • Current Class Schedules
    • Course Descriptions
    • Mth 211-213 for Elem GTEP
  • Undergraduate Programs
    • BA/BS Advising
    • BA/BS Mathematics
    • Departmental Honors Program
    • Approved Undergraduate Electives and Sequences
    • Minor in Mathematics
    • Minor in Mathematics for Middle School Teachers
  • Graduate Programs
    • Graduate Application Form
    • MA/MS Mathematics
    • MS Statistics
    • MAT/MST Mathematics
    • Ph.D. Mathematical Sciences
    • Ph.D. Mathematics Education
    • Ph.D. Systems Science/Mathematics
    • Graduate Level Sequences
  • Additional Programs
    • Graduate Certificate for Middle School Mathematics Teachers
    • Graduate Certificate in Applied Statistics
    • GTEP Requirements
 Resources
  • Tutor & Lab schedules
  • Tutorials & help
  • Career Information
  • Other Math Links
 People Financial Support
  • Scholarship list
  • Graduate Assistantships
 News & Events
  • Maseeh Colloquium Series
  • Maseeh Lecture
  • Seminars
    • Statistics Research Seminar
    • Cascade Topology Seminar
    • Pacific Northwest Geometry Seminar
  • Department News
 Employment
The Maseeh Mathematics & Statistics Colloquium Series.

The Maseeh Mathematics & Statistics
Colloquium Series.

<< Series Listing 

Date and time: Friday, March 12, 2004  3:15 PM
Speaker: Martin Bohner, University of Missouri-Rolla
Title: Dynamic Equations on Time Scales

Abstract: Time scales have been introduced in order to unify continuous and discrete analysis and in order to extend those theories to cases "in between". We will offer a brief introduction into the calculus involved, including the so-called delta derivative of a function on a time scale. This delta derivative is equal to the usual derivative if the time scale is the set of all real numbers, and it is equal to the usual forward difference operator if the time scale is the set of all integers. However, in general, a time scale may be any closed subset of the reals.

We present some basic facts concerning dynamic equations on time scales (those are differential and difference equations, resp., in the above two mentioned cases) and initial value problems involving them. We introduce the exponential function on a general time scale and use it to solve initial value problems involving first order linear dynamic equation. We also present a unification of the Laplace and Z-transform, which serves to solve any higher order linear dynamic equations with constant coefficients.

Throughout the talk, many examples of time scales will be offered. Among others, we will discuss the following examples:

  1. The two standard examples (the reals and the integers).
  2. The set of all integer multiples of a positive number (this time scale is interesting for numerical purposes).
  3. The set of all integer powers of a number bigger than one (this time scale gives rise to so-called q-difference equations).
  4. The union of closed intervals (this time scale is interesting in population dynamics; for example, it can model insect populations that are continuous while in season, die out in say winter, while their eggs are incubating or dormant, and then hatch in a new season, giving rise to a nonoverlapping population).

References

  1. Dynamic Equations on Time Scales: An Introduction with Applications, Martin Bohner and Allan Peterson, Birkhäuser, 2001.
  2. Advances in Dynamic Equations on Time Scales, Martin Bohner and Allan Peterson, Birkhäuser, 2003.

  • Contact
  • Sitemap
  • Give to PSU
  • PSU FAQs
  • Contact PSU
  • Find People
  • Maps/Directions
  • PSU Sitemap
  • © 2009