The Ermakov-Pinney Equation: its varied origins and the effects of the introduction of symmetry-breaking functions

Peter Gavin Lawrence Leach; Richard Michael Morris

arxiv: 1510.08992 · v1 · pith:W24UU7UFnew · submitted 2015-10-30 · 🧮 math.CA

The Ermakov-Pinney Equation: its varied origins and the effects of the introduction of symmetry-breaking functions

Richard Michael Morris , Peter Gavin Lawrence Leach This is my paper

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keywords equationfunctionsermakov-pinneyomegasymmetrytime-dependentvariedalgebra

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The Ermakov-Pinney Equation, $$\ddot{x}+\omega^2 x=\frac{h^2}{x^3},$$ has a varied provenance which we briefly delineate. We introduce time-dependent functions in place of the $\omega^2$ and $h^2$. The former has no effect upon the algebra of the Lie point symmetries of the equation. The latter destroys the $sl(2,\Re)$ symmetry and a single symmetry persists only when there is a specific relationship between the two time-dependent functions introduced. We calculate the form of the corresponding autonomous equation for these cases.

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