Accession Number:

ADA242190

Title:

Resonant Frequency Calculations Using a Hybrid Perturbation-Galerkin Technique

Descriptive Note:

Contractor rept.,

Corporate Author:

INSTITUTE FOR COMPUTER APPLICATIONS IN SCIENCE AND ENGINEERING HAMPTON VA

Personal Author(s):

Report Date:

1991-09-01

Pagination or Media Count:

32.0

Abstract:

A two step hybrid perturbation-Galerkin technique is applied to the problem of determining the resonant frequencies of one- or several degrees of freedom nonlinear systems involving a parameter. In step one, the Lindstedt- Poincare method is used to determine perturbation solutions which are formally valid about one or more special values of the parameter e.g. for small or large values of the parameter. In step two, a subset of the perturbation coordinate functions determined in step one is used in a Galerkin type approximation. The technique is illustrated for several one-degree-of-freedom systems, including the Duffing and van der Pol oscillators, as well as for the compound pendulum. For all of the examples considered, it is shown that the frequencies obtained by the hybrid technique using only a few terms from the perturbation solutions are significantly more accurate than the perturbation results on which they are based, and they compare very well with frequencies obtained by purely numerical methods.

Subject Categories:

  • Numerical Mathematics
  • Radiofrequency Wave Propagation

Distribution Statement:

APPROVED FOR PUBLIC RELEASE