[{“box”:0,”content”:”[if 992 equals=”Open Access”]
Open Access
n
[/if 992]n
n
n
n
n
- n t
n
Shirish Prabhakarrao Kulkarni
[/foreach]
n
n
n[if 2099 not_equal=”Yes”]n
- [foreach 286] [if 1175 not_equal=””]n t
- Assistant Professor, Ajeenkya D Y Patil University, Maharashtra, India
n[/if 1175][/foreach]
[/if 2099][if 2099 equals=”Yes”][/if 2099]nn
Abstract
nIn the present research, advanced results on the fixed point theorem are applied to typical boundary value problems. Finding a differential equation’s solution under certain boundary
conditions is the goal of typical boundary value topics. The article appears to extend new fixed point results to a new context, likely involving fractional operators with unique kernels, notably the Caputo-type fractional operator. This extension involves applying the fixed point theorem to a broader set of problems. Caputo fractional derivatives are a generalization of ordinary derivatives to non-integer orders, commonly used in fractional calculus. This extends the scope to fractional boundary value problems, where the differential equation involves fractional derivatives, and the conditions are given in terms of fractional order. Integral type boundary conditions suggest that the conditions involve integrals, which could be part of the fractional differential equation or the boundary conditions. We have used inequalities on a triplet (U, d, T) and quatern (U, d, T, θ ). We have developed a novel class of mappings and investigated a fixed point criterion for them, using Geraghty contraction as inspiration. In addition, we demonstrated two applications: one with singular kernels for fractional derivatives in a system of nonlinear differential equations and the other with a two-point boundary value problem of a second-order ordinary differential equations.
n
Keywords: Fractional differential equations, Ordinary differential Equations, Generalized α-p- (omega) -contractions, Weakly contractive mapping, Geraghty function, θ-orbital permissible
n[if 424 equals=”Regular Issue”][This article belongs to Recent Trends in Mathematics(rtm)]
n
n
n
n
n
nn
nn[if 992 equals=”Open Access”] Full Text PDF Download[else] nvar fieldValue = “[user_role]”;nif (fieldValue == ‘indexingbodies’) {n document.write(‘Full Text PDF‘);n }nelse if (fieldValue == ‘administrator’) { document.write(‘Full Text PDF‘); }nelse if (fieldValue == ‘rtm’) { document.write(‘Full Text PDF‘); }n else { document.write(‘ ‘); }n [/if 992] [if 379 not_equal=””]n
Browse Figures
n
n[/if 379]n
References
n[if 1104 equals=””]n
nn[/if 1104][if 1104 not_equal=””]n
- [foreach 1102]n t
- [if 1106 equals=””], [/if 1106][if 1106 not_equal=””],[/if 1106]
n[/foreach]
n[/if 1104]
nn
nn[if 1114 equals=”Yes”]n
n[/if 1114]
n
n
n
| Volume | |
| [if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] | |
| Received | January 24, 2024 |
| Accepted | March 1, 2024 |
| Published |
n
n
n
n
n
nn function myFunction2() {n var x = document.getElementById(“browsefigure”);n if (x.style.display === “block”) {n x.style.display = “none”;n }n else { x.style.display = “Block”; }n }n document.querySelector(“.prevBtn”).addEventListener(“click”, () => {n changeSlides(-1);n });n document.querySelector(“.nextBtn”).addEventListener(“click”, () => {n changeSlides(1);n });n var slideIndex = 1;n showSlides(slideIndex);n function changeSlides(n) {n showSlides((slideIndex += n));n }n function currentSlide(n) {n showSlides((slideIndex = n));n }n function showSlides(n) {n var i;n var slides = document.getElementsByClassName(“Slide”);n var dots = document.getElementsByClassName(“Navdot”);n if (n > slides.length) { slideIndex = 1; }n if (n (item.style.display = “none”));n Array.from(dots).forEach(n item => (item.className = item.className.replace(” selected”, “”))n );n slides[slideIndex – 1].style.display = “block”;n dots[slideIndex – 1].className += ” selected”;n }n”}]