A. Pressure Dependence of t JG B. Invariance of t JG to Variations of T and P at Constant t a C. Non-Arrhenius Temperature Dependence of t b Above T g D. Increase of t b on Physical Aging E. JG Relaxation Strength and Its Mimicry of Enthalpy, Entropy, and Volume F. The Origin of the Dependences of Molecular Mobility on Temperature, Pressure, Volume, and Entropy is in t JG or t 0 VI. The Coupling Model A. Background B. The Correspondence Between t 0 and t JG C. Relation Between the Activation Enthalpies of t JG and t a in the Glassy State D. Explaining the Properties of t JG E. Consistency with the Invariance of the a-Dispersion at Constant t a to Different Combinations of T and P F. Relaxation on a Nanometer Scale G. Component Dynamics in Binary Mixtures H. Interrelation Between Primary and Secondary Relaxations in Polymerizing Systems I. A Shortcut to the Consequences of Many-Molecule Dynamics and a Pragmatic Resolution of the Glass Transition Problem VII. Conclusion Acknowledgments References dispersion of the structural relaxation kia l. ngai et al. dispersion of the structural relaxation kia l. ngai et al. dispersion of the structural relaxation 504 kia l. ngai et al. dispersion of the structural relaxation kia l. ngai et al. dispersion of the structural relaxation dispersion of the structural relaxation dispersion of the structural relaxation dispersion of the structural relaxation dispersion of the structural relaxation kia l. ngai et al.
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