Cool Stars 14 - Submitted Abstract # 230 This version created on 05 October 2006 Accurate Mass Determination of Young Low Mass Objects with Theoretical Evolutionary Tracks Laird M. Close Niranjan Thatte Eric L. Nielsen Roberto Abuter Fraser Clarke Matthias Tecza It is currently very challenging to determine masses (and their uncertainties) from the evolutionary models of young cool (low-mass) objects. We review all known calibrators with known dynamical masses, and compare them to a popular set evolutionary VLM and brown dwarf tracks. In particular, we present new photometric and spectroscopic measurements for the unique, young, low-mass evolutionary track calibrator AB Dor C. While the new Ks photometry is similar to that previously published in Close et al. (2005) the spectral type is found to be much earlier. Based on a new (much improved) H & K IFS spectra of AB Dor C (Thatte et al. 2006) we adopt a spectral type of M5.5+/-1 for AB Dor C. We also present new astrometry for the system which further supports a 0.090+/-0.005 Msun mass for the system. Once armed with an accurate spectrum and Ks flux we find L=0.0021+/-0.0005 Lsun and Teff=2925+/-150K for AB Dor C. These values are consistent with a ~75 Myr 0.090+/-0.005 Msun object like AB Dor C according to the DUSTY evolutionary tracks (Chabrier et al. 2000). Hence masses can be estimated from the HR diagram with the DUSTY tracks for young, low-mass, objects like AB Dor C. However, we cautiously note that underestimates of the mass from the tracks can occur if one lacks a proper (continuum preserved) spectra and/or is relying on J and H fluxes alone. ----------------------------------