Abstract
We study the existence and uniqueness of a positive solution for the singular nonlinear fractional differential equation boundary value problem
Highlights
Fractional differential equations arise in many engineering and scientific disciplines as the mathematical modeling of systems and processes in the fields of physics, fluid flows, electrical networks, viscoelasticity, aerodynamics, and many other branches of science
We study the existence and uniqueness of a positive solution for the singular nonlinear fractional differential equation boundary value problem
1 Introduction Fractional differential equations arise in many engineering and scientific disciplines as the mathematical modeling of systems and processes in the fields of physics, fluid flows, electrical networks, viscoelasticity, aerodynamics, and many other branches of science
Summary
Fractional differential equations arise in many engineering and scientific disciplines as the mathematical modeling of systems and processes in the fields of physics, fluid flows, electrical networks, viscoelasticity, aerodynamics, and many other branches of science. We study the existence and uniqueness of a positive solution for the singular nonlinear fractional differential equation boundary value problem
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