Initial radiation chemical yields of 1.48 (2), 0.24 (2), and 2.01 molecules per 100 eV of absorbed energy are reported for addition of (OH)-O-center dot radical to each of the ortho, meta, and para positions of phenol. These yields represent 91% of the yield of 5.96 expected for (OH)-O-center dot addition to 5 mM phenol and are in general agreement with other previous measurements. Pulse radiolysis experiments show that phenoxy radical is produced in a yield of similar to 0.42 as a result of addition of (OH)-O-center dot at phenol's ipso position. The total of these yields (5.84) accounts for the addition of virtually all of the expected (OH)-O-center dot radicals. The relative yields for addition to the ortho, meta, and para positions provide a measure of the charge distribution in phenol that correlates quite well with the unpaired spin distribution in phenoxyl radical. This correlation indicates that the OH substituent similarly affects the charge distribution on the aromatic ring of phenol and the unpaired spin distribution in the phenoxyl radical.