The functionally required membrane attachment of Ras is achieved through an invariant isoprenylation of a C-terminal Cys, supplemented by further lipid modification of adjacent Cys residues by one (N-ras) or two (H-ras) palmitoyls. However, whether the triply lipidated membrane anchor of H-ras has a higher membrane affinity than its doubly lipidated counterpart, or whether the affinity contribution of the two palmitates and the farnesyl is additive, was not known. To address this issue, we carried out potential of mean force (PMF or free energy profile) calculations on a hexadecylated but nonpalmitoylated anchor (Cys186-HD), hexadecylated and monopalmitoylated anchors (Cys181-monopalmitate and Cys184-monopalmitate), and a nonlipid-modified anchor. We found that the overall insertion free energy follows the trend Cys181/Cys184-bipalmitate (wild type) sufficient hydrophobic force for tight membrane binding, the palmitoyl at Cys184 is likely designed to serve another, presumably functional, role.