This book argues that democracies emerging from peaceful protest last longer, achieve higher levels of democratic quality, and are more likely to see at least two peaceful handovers of power than democracies that emerged out of violent resistance or top-down liberalization. Nonviolent resistance is not just an effective means of deposing dictators; it can also help consolidate democracy after the transition from autocratic rule. Drawing on case studies on democratic consolidation in Africa and Latin America, the authors find that nonviolent resistance creates a more inclusive transition process that is more resistant to democratic breakdown in the long term.
This book argues that democracies emerging from peaceful protest last longer, achieve higher levels of democratic quality, and are more likely to see at least two peaceful handovers of power than democracies that emerged out of violent resistance or top-down liberalization. Nonviolent resistance is not just an effective means of deposing dictators; it can also help consolidate democracy after the transition from autocratic rule. Drawing on case studies on democratic consolidation in Africa and Latin America, the authors find that nonviolent resistance creates a more inclusive transition process that is more resistant to democratic breakdown in the long term.
Latin paradigms are almost proverbially known, and they have often been used as a test case for different theoretical approaches to morphological complexity. This book analyses them in a completely word-based perspective, using a recently developed information-theoretic methodology, making entropy-based techniques of analysis available to a wider readership. By doing so, it shows the relevance of traditional notions like principal parts, giving them a more principled, data-driven formulation. Furthermore, it suggests enhancements to the standard information-theoretic methodology, allowing to account for the role of external factors – like gender and derivational information – in improving predictability between inflected word forms. This book is useful to morphologists, that will see ideas and techniques taken from the current debate on morphological theory tested on complex phenomena of a language as renowned as Latin. It is also helpful for scholars working in both Latin and Romance linguistics: the former will find a freely available lexical resource and a novel description of Latin paradigms, that can be exploited by the latter to draw a comparison with recent analyses of the inflectional morphology of several Romance languages.
From the scream of Psycho to the psycho of Scream, The Horror Movie Survival Guide is your essential source for information on the creatures and monsters that darken your daydreams and stalk your nightmares. Separated into five identifiable categories—aliens, beasts, creations, psychopaths, and the supernatural—each horrific entity is presented with a full description, an overview of unnatural habits, and tips on how to destroy it. This definitive handbook also includes a directory of horror films (So you know where to find your favorite monsters!), thirty photographs of the baddest of the bad, and a list ranking the worst creatures to grace the silver screen by their number of kills. So the next time you’re confronted by the supernatural, the extraterrestrial, or the unclassifiable, look in here for all the facts—and run like hell.
The science of complex materials continues to engage researchers from a vast range of disciplines, including physics, mathematics, computational science, and virtually all domains of engineering. This volume presents a unique multidisciplinary panorama of the current research in complex materials. The contributions explore an array of problems reflecting recent developments in four main areas: characterization and modeling of disordered packings, micromechanics and continuum theory; discrete element method; statistical mechanics. The common theme is the quest to unravel the connection between the microscopic and macroscopic properties of complex materials. Sample Chapter(s). Chapter 1: Foam as granular matter (2,433 KB). Contents: Foam as Granular Matter (D Weaire et al.); Delaunay Simplex Analysis of the Structure of Equal Sized Spheres (A V Anikeenko et al.); On Entropic Characterization of Granular Materials (R Blumenfeld); Mathematical Modeling of Granular Flow-Slides (I Vardoulakis & S Alevizos); The Mechanics of Brittle Granular Materials (I Einav); Stranger than Friction: Force Chain Buckling and Its Implications for Constitutive Modelling (A Tordesillas); Investigations of Size Effects in Granular Bodies During Plane Strain Compression (J Tejchman & J Grski); Granular Flows: Fundamentals and Applications (P W Cleary); Fine Tuning DEM Simulations to Perform Virtual Experiments with Three-Dimensional Granular Packings (G W Delaney et al.); Fluctuations in Granular Materials (R P Behringer); Statistical Mechanics of Dense Granular Media (M Pica Ciamarra et al.); Compaction of Granular Systems (P Richard et al.). Readership: Physicists, material scientists, soil engineers and applied mathematicians.
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