We deal with positive solutions for the Neumann boundary value problem associated with the scalar second order ODE u″ + q(t)g(u) = 0, t ϵ [0, T]; where g : [0,+∞[→ R is positive on ]0,+ ∞ [ and q(t) is an indefinite weight. Complementary to previous investigations in the case ∫T0q(t) < 0, we provide existence results for a suitable class of weights having (small) positive mean, when g′(u) < 0 at infinity. Our proof relies on a shooting argument for a suitable equivalent planar system of the type x′ = y, y′ = h(x)y2+ q(t); with h(x) a continuous function defined on the whole real line.
Positive solutions to indefinite neumann problems when the weight has positive average
Garrione, Maurizio
2016-01-01
Abstract
We deal with positive solutions for the Neumann boundary value problem associated with the scalar second order ODE u″ + q(t)g(u) = 0, t ϵ [0, T]; where g : [0,+∞[→ R is positive on ]0,+ ∞ [ and q(t) is an indefinite weight. Complementary to previous investigations in the case ∫T0q(t) < 0, we provide existence results for a suitable class of weights having (small) positive mean, when g′(u) < 0 at infinity. Our proof relies on a shooting argument for a suitable equivalent planar system of the type x′ = y, y′ = h(x)y2+ q(t); with h(x) a continuous function defined on the whole real line.File in questo prodotto:
Non ci sono file associati a questo prodotto.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
