A property of strictly convex functions which differ from each other by a constant on the boundary of their domain

Abstract

In this paper, in particular, we prove the following result: Let E be a reflexive real Banach space and let C⊂ E be a closed convex set, with non-empty interior, whose boundary is sequentially weakly closed and non-convex. Then, for every function :∂ C R and for every convex set S⊂eq E* dense in E*, there exists γ∈ S having the following property: for every strictly convex lower semicontinuous function J:C R, G\ateaux differentiable in int(C), such that J|∂ C- is constant in ∂ C and \|x\| +∞J(x) \|x\|=+∞ if C is unbounded, γ is an algebraically interior point of J'( int(C)) (with respect to E*).