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A self-consistent variational theory for obtaining the size of a polyelectrolyte chain, R, for arbitrary values of the experimentally controllable parameters characterizing a dilute polyelectrolyte solution is derived using the Edwards model for the chain. In appropriate limits the theory reproduces the scaling behavior in a good solvent, a solvent, and a poor solvent. In particular, we show that, if the solvent is sufficiently poor, the size of the polyelectrolyte chain changes abruptly from a swollen state (RbN^3/5, N is the number of monomers, b is the monomer size) to a globule state (RbN^1/3) or from a rodlike configuration (R) to a globule depending on the limiting values of the salt concentration.
Ha et al. (Tue,) studied this question.