The long-term goal of this research is to develop new tools and protocols for determining the two most fundamental descriptors of protein dynamics, the effective dimensionality of the motion and the volume of structural space sampled by the protein. The tools will help answer the many fundamental, unresolved questions about the denatured or disordered states of proteins that are central to understanding protein function and folding. Specifically, these tools will determine to what extent denatured or intrinsically disordered proteins behave as random polymers or have motions constrained to lower dimensional dynamics. Additionally these tools will elucidate whether there are differences between the dynamics of intrinsically disordered proteins and natively folded proteins in the early stages of folding. Finally, these tools will help in determining the efficiency of different molecular simulations in sampling the denatured or disordered states of proteins.