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First-order ordinary differential equations, symmetries and linear transformations

Published online by Cambridge University Press:  09 May 2003

E. S. CHEB-TERRAB
Affiliation:
CECM, Department of Mathematics and Statistics, Simon Fraser University, 8888 University Drive, Burnaby, BC, V5A 1S6, Canada Department of Theoretical Physics, State University of Rio de Janeiro, Rua São Francisco Xavier 524 Maracanã, Rio de Janeiro, Cep:20550-900, Brazil
T. KOLOKOLNIKOV
Affiliation:
Symbolic Computation Group, Faculty of Mathematics, University of Waterloo, 200 University Avenue West, Waterloo, Ontario N2L 3G1, Canada

Abstract

We present an algorithm for solving first-order ordinary differential equations by systematically determining symmetries of the form $[\xi=F(x),\, \eta=P(x)\,y+Q(x)]$, where $\xi\; \pa/\pa x + \eta\; \pa/\pa y$ is the symmetry generator. To these linear symmetries one can associate an ordinary differential equation class which embraces all first-order equations mappable into separable ones through linear transformations $\{t=f(x),\,u=p(x)\,y+q(x)\}$. This single class includes as members, for instance, 429 of the 552 solvable first-order examples of Kamke's [12] book. Concerning the solution of this class, a restriction on the algorithm being presented exists, only in the case of Riccati equations, for which linear symmetries always exist, but the algorithm will only partially succeed in finding them.

Type
Research Article
Copyright
2003 Cambridge University Press

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