SEMIEMPIRICAL CALCULATIONS OF SHELL MODEL STATES IN 212Rn.

Using standard angular momentum algebra and empirical interaction energies, i. e. two-nucleon interaction energies extracted from experimentally determined levels in **2**1**0Po, properties of valence nucleon states in **2**1**2Rn are calculated. Excitation energies and some half-lives and magnetic moments are given. The effect of the truncation of the configuration space is discussed. Comparison with experimentally determined properties gives good agreement.