A solution to Newton's least resistance problem is uniquely defined by its singular set

Abstract

Let u minimize the functional F(u) = ∫ f(∇ u(x))\, dx in the class of convex functions u : R satisfying 0 u M, where ⊂ R2 is a compact convex domain with nonempty interior and M > 0, and f : R2 R is a C2 function, with \ : \, the smallest eigenvalue of \, f"() \, is zero \ being a closed nowhere dense set in R2. Let epi(u) denote the epigraph of u. Then any extremal point (x, u(x)) of epi(u) is contained in the closure of the set of singular points of epi(u). As a consequence, an optimal function u is uniquely defined by the set of singular points of epi(u). This result is applicable to the classical Newton's problem, where F(u) = ∫ (1 + |∇ u(x)|2)-1\, dx.