Macromolecules in Solution and Brownian Relativity illustrates the recent picture of statistical physics of polymers and polymer solutions that emerges from some paradigms of contemporary science joint together. Among its principal aims are discussing the consequences of a novel self-diffusion theory, which benefits from an extension towards relativistic-like principles, and the generalization of usual concepts met in polymer science in terms of geometry alone. The monograph gives the whole fundamentals necessary to handle the view proposed, which is set in the final chapters. All the formers see about to provide the reader with a comprehensive treatation of the necessary fundamentals of classical, relativistic, quantum and statistical mechanics. Among the most important mechanical theories ever developed, a chapter on the Brownian movement and another on macromolecules prepare the ground that is specific to face universality and scaling behaviors in polymer solutions. The scope of the book is therefore two-fold: On the one hand, it wishes to involve the readers and scholars into a new research on polymer physics and chemistry. On the other, to get close chemical physicists and physical chemists to disciplines which, traditionally, are far from their direct fields of interest. Cross-disciplinarity Novelty Potentiality
Physicochemical Approaches to the Characterization of Pharmaceutical Systems provides consistent data analysis on the basic physics and chemistry involved in pharmaceutical systems that are carried out using various theoretical models. The book explores states of matter and thermodynamics, how to estimate chemical properties, solubility and distribution phenomena, kinetic processes and drug delivery, and thermodynamics versus the shape of molecules. It supplies several guidelines for achieving better estimations of properties associated with complex molecular geometries, such as important drug, polymer and biopolymer characteristics. Researchers will find it to be a crucial resource for studies in pharmaceutical science and chemical engineering. Covers a wide range of pharmaceutical systems, with an emphasis on chemical physics and thermodynamics Considers contemporary issues in pharmaceutical sciences through interdisciplinary frameworks Suggests novel approaches to complex molecular structures Serves as a comprehensive guide for academic and industrial researchers across pharmaceutical disciplines
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