This book is the result of collaboration between the Russian Federal Nuclear Center – All Russian Scientific Research Institute of Experimental Physics (RFNC-VNIIEF) located in Sarov, Russia and the University of California – Los Alamos National Laboratory (UC-LANL). The genesis of this project was the compilation of a set of lecture notes used by a number of leading VNIIEF researchers in courses taught to students of the Sarov Physical and Technical Institute(SarFTI)specializingin“Theoretical andExperimentalMechanics. ” A revised and significantly supplemented version of those lecture notes was ultimately published as a monograph (in Russian) by VNIIEF Press, and is used today as a textbook in courses on shock mechanics being taught at SarFTI. Recognizing the potential benefit of the manuscript to students and researchers in the field of shock mechanics in the English-speaking world, a VNIIEF/LANL collaboration was established to revise/translate/update the manuscript. This book is the result of that effort. Understanding the physical and thermomechanical response of materials subjected to intensive dynamic loading is a challenge of great significance in engineering today. When intensive dynamic loads, such as those that result from the detonation of high explosives (HE), high-velocity impact, or rapid localizedheating(suchasmightdevelopundertheeffectsofincidentlaserlight or relativistic electron beam), are applied to condensed matter, the result is a complex pattern of material flow involving waves of discontinuous (shock) as well as continuous (expansion) nature. Shock compression (followed by expansion) precipitates both reversible and irreversible physical, physicochemical and mechanical processes in the material.