Perturbation approach and the constant of motion for on-dimensional dynamical systems | Zendy

Gustavo V. López | Zendy

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Perturbation approach and the constant of motion for on-dimensional dynamical systems

Author(s) -

Gustavo V. López

Publication year - 1991

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/67490

Subject(s) - perturbation (astronomy) , constant (computer programming) , constant of motion , dynamical systems theory , classical mechanics , motion (physics) , mathematics , mathematical analysis , convergence (economics) , physics , computer science , equations of motion , quantum mechanics , economics , programming language , economic growth

A perturbation technic is used to find the constant of motion of a one-dimensional autonomous system. The convergence of the method is discussed through some examples. In addition, the approach is extended to one-dimensional non-autonomous systems where some examples are given

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