Existence of solutions for second-order differential equations and systems on infinite intervals.
The aim of this paper is to study the existence of solutions to a boundary value problem associated to a nonlinear fractional differential equation where the nonlinear term depends on a fractional derivative of lower order posed on the half-line. An appropriate compactness criterion and suitable Banach spaces are used and so a fixed point theorem is applied to obtain fixed points which are solutions of our problem.
In this paper, we consider the following boundary value problem where and is a continuous function, , are respectively the left and right fractional Riemann–Liouville derivatives and we prove the existence of at least one solution for this problem.
We use the genus theory to prove the existence and multiplicity of solutions for the fractional -Kirchhoff problem where is an open bounded smooth domain of , , with fixed, , is a numerical parameter, and are continuous functions.
The aim of this paper is to present new existence results for -Laplacian boundary value problems with linear bounded operator conditions. Existence theorems are obtained using the Schauder and the Krasnosel’skii fixed point theorems. Some examples illustrate the results obtained and applications to multi-point boundary value problems are provided.
This paper discusses the existence and multiplicity of solutions for a class of -Kirchhoff type problems with Dirichlet boundary data of the following form where is a smooth open subset of and with , , are positive constants and is a continuous function. The proof is based on critical point theory and variable exponent Sobolev space theory.
We discuss the existence and multiplicity of positive solutions for a class of second order quasilinear equations. To obtain our results we will use the Ekeland variational principle and the Mountain Pass Theorem.
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