Positive solutions of a second-order nonlinear Robin problem involving the first-order derivative

Positive solutions of a second-order nonlinear Robin problem involving the first-order derivative

Abstract This paper is concerned with the second-order nonlinear Robin problem involving the first-order derivative: { u ″ + f ( t , u , u ′ ) = 0 , u ( 0 ) = u ′ ( 1 ) − α u ( 1 ) = 0 , $$ \textstyle\begin{cases} u''+f(t,u,u^{\prime })=0, \\ u(0)=u'(1)-\alpha u(1)=0,\end{cases} $$ wh...

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Bibliographic Details
Main Author: Zhilin Yang
Format: Article
Language:English
Published: SpringerOpen 2021-06-01
Series:Advances in Difference Equations
Subjects:
Robin problem
Positive solution
A priori estimate
Fixed point index
Iterative sequence
Super- and sub-solution
Online Access:https://doi.org/10.1186/s13662-021-03465-y
Description
Summary:Abstract This paper is concerned with the second-order nonlinear Robin problem involving the first-order derivative: { u ″ + f ( t , u , u ′ ) = 0 , u ( 0 ) = u ′ ( 1 ) − α u ( 1 ) = 0 , $$ \textstyle\begin{cases} u''+f(t,u,u^{\prime })=0, \\ u(0)=u'(1)-\alpha u(1)=0,\end{cases} $$ where f ∈ C ( [ 0 , 1 ] × R + 2 , R + ) $f\in C([0,1]\times \mathbb{R}^{2}_{+},\mathbb{R}_{+})$ and α ∈ ] 0 , 1 [ $\alpha \in ]0,1[$ . Based on a priori estimates, we use fixed point index theory to establish some results on existence, multiplicity and uniqueness of positive solutions thereof, with the unique positive solution being the limit of of an iterative sequence. The results presented here generalize and extend the corresponding ones for nonlinearities independent of the first-order derivative.
ISSN:1687-1847

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