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Solutions to second-order three-point problems on time scales. (English) Zbl 1021.34011
The author applies a fixed-point theorem in a cone to establish existence criteria for multiple positive solutions to the nonlinear second-order boundary value problem (with mixed derivatives) on time scales $$ u^{\Delta\nabla}(t)+f(t,u(t))=0, \quad u(0)=0, \quad \alpha u(\eta)=u(T), $$ $t\in[0,T]\subseteq{\bbfT}$. Here, ${\bbfT}$ is a time scale (nonempty closed subset of ${\bbfR}$), $^\Delta$ and $^\nabla$ are the delta-derivative and the nabla-derivative, respectively. Two main results are sufficient conditions for the existence of at least three positive solutions to the given dynamic boundary value problem, and the existence of at least one positive solution to a certain related problem.

34B10Nonlocal and multipoint boundary value problems for ODE
39A10Additive difference equations
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