The electronic absorption spectrum of acetone is revisited to evaluate the role of hot bands Due to low lying torsional modes in the assignment of vibronic transitions. The UV–VUV Photo absorption spectrum of acetone is recorded in the energy region 3.5–11.8 eV at a Resolution of ˜4meV at 4eV and ˜10meV at 10eV using synchrotron radiation. The Absorption spectrum is dominated by richly structured Rydberg series (ns, np and nd) converging to the first ionization potential of acetone at 9.708eV.C are ful consideration of hot band contributions from torsional modes and symmetry selection rules have resulted in an improved set of vibronic assignments as compared to earlier room temperature work. Revised quantum defect values for some of the Rydberg transitions and a few new Assignments in the nd series are also reported in this paper.