Geodesic
A global curve of stable, positive solutions for a \(p\)-Laplacian problem
Electronic journal of differential equations, Tome 2010 (2010)
We consider the boundary-value problem

$\displaylines{ - \phi_p (u'(x))' = \lambda f(x,u(x)) , \quad x \in (0,1),\cr u(0) = u(1) = 0, }$

where

$\displaylines{ f(x,\xi) > 0, \quad (x,\xi) \in [0,1] \times \mathbb{R} ,\cr (p-1)f(x,\xi) \ge f_\xi(x,\xi) \xi , \quad (x,\xi) \in [0,1] \times (0,\infty) . }$

These assumptions on $f$ imply that the trivial solution $(\lambda,u)=(0,0)$ is the only solution with $\lambda=0$ or $u=0$, and if $\lambda > 0$ then any solution $u$ is $\em $positive, that is, $u > 0$ on $(0,1)$.
Classification : 34B15
Keywords: ordinary differential equations, p-Laplacian, nonlinear boundary value problems, positive solutions, stability 
@article{EJDE_2010__2010__a71,
     author = {Rynne,  Bryan P.},
     title = {A global curve of stable, positive solutions for a {\(p\)-Laplacian} problem},
     journal = {Electronic journal of differential equations},
     year = {2010},
     volume = {2010},
     zbl = {1201.34028},
     language = {en},
     url = {http://geodesic.mathdoc.fr/item/EJDE_2010__2010__a71/}
}
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%A Rynne,  Bryan P.
%T A global curve of stable, positive solutions for a \(p\)-Laplacian problem
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Rynne,  Bryan P. A global curve of stable, positive solutions for a \(p\)-Laplacian problem. Electronic journal of differential equations, Tome 2010 (2010). http://geodesic.mathdoc.fr/item/EJDE_2010__2010__a71/