Hot-stage optical microscopy was used to study the crystal morphology, nucleation, and spherulitic growth rates of poly(p-dioxanone) (PDS) homopolymer and an 89/11 PDS/glycolide segmented block copolymer. A wide range of crystallization conditions were experimentally accessible, allowing the inspection of various morphological features and accurate estimations of characteristic growth parameters, including radial growth and nucleation rates. Although the regime analysis of the crystallization kinetics indicated no breaks in the growth rate curve, the isothermal data were in excellent agreement with the Hoffman-Lauritzen theory. Spherulitic growth rates obtained from optical measurements are compared with values of the half-time of crystallization determined earlier by differential scanning calorimetry.