Abstract
The boundary value problem (BVP) for a nonlinear non positone or semi-positone multi-point Caputo-Hadamard fractional differential pantograph problem is addressed in this study. D(1)(upsilon)x(t) + f(t, x(t), x(1 + lambda t)) = 0, t is an element of (1, b) x(1) = delta(1), x(b) = sigma(m-2)(i=1) zeta(i)x(eta(i)) + delta(2), delta(i) is an element of R, i = 1, 2, where lambda is an element of (0, b-1/b). The novelty in our approach is to show that there is only one solution to this problem using the Schauder fixed point theorem. Our results expand some recent research in the field. Finally, we include an example to demonstrate our findings.