The introduction of the C10‐stereocenter of (ox‐)anthrones by plant organisms is not stereospecific. Consequently, often, both (10S)‐ and (10R)‐diastereomers can be found in the same plant. Motivated by the importance of a correct assignment of the configuration at C10, this study revisits the nuclear magnetic resonance and electronic circular dichroism‐based empirical rules for the determination of the absolute configuration by molecular dynamic simulations and electronic circular dichroism spectrum calculations. Furthermore, a vibrational circular dichroism spectroscopic characterization of these large and conformationally very flexible molecules reveals spectral signatures, which can be used to specifically distinguish the C10 stereochemistry. A detailed analysis of the underlying vibrational modes suggests that the observed spectral pattern of the investigated cascarosides may be generally characteristic for the C10‐stereocenter of (ox‐)anthrones and that they can be used for empirical spectra‐structure correlations.