State-of-the-art analysis of geological structures has become increasingly quantitative but traditionally, graphical methods are used in teaching. This innovative lab book provides a unified methodology for problem-solving in structural geology using linear algebra and computation. Assuming only limited mathematical training, the book begins with classic orientation problems and progresses to more fundamental topics of stress, strain and error propagation. It introduces linear algebra methods as the foundation for understanding vectors and tensors, and demonstrates the application of geometry and kinematics in geoscience without requiring students to take a supplementary mathematics course. All algorithms are illustrated with a suite of online MATLAB functions, allowing users to modify the code to solve their own structural problems. Containing 20 worked examples and over 60 exercises, this is the ideal lab book for advanced undergraduates or beginning graduate students. It will also provide professional structural geologists with a valuable reference and refresher for calculations.

North America's Indian peoples have always viewed competitive sport as something more than a pastime. The northeastern Indians' ball-and-stick game that would become lacrosse served both symbolic and practical functions-preparing young men for war, providing an arena for tribes to strengthen alliances or settle disputes, and reinforcing religious beliefs and cultural cohesion. Today a multimillion-dollar industry, lacrosse is played by colleges and high schools, amateur clubs, and two professional leagues. In Lacrosse: A History of the Game, Donald M. Fisher traces the evolution of the sport from the pre-colonial era to the founding in 2001 of a professional outdoor league-Major League Lacrosse-told through the stories of the people behind each step in lacrosse's development: Canadian dentist George Beers, the father of the modern game; Rosabelle Sinclair, who played a large role in the 1950s reinforcing the feminine qualities of the women's game; "Father Bill" Schmeisser, the Johns Hopkins University coach who worked tirelessly to popularize lacrosse in Baltimore; Syracuse coach Laurie Cox, who was to lacrosse what Yale's Walter Camp was to football; 1960s Indian star Gaylord Powless, who endured racist taunts both on and off the field; Oren Lyons and Wes Patterson, who founded the inter-reservation Iroquois Nationals in 1983; and Gary and Paul Gait, the Canadian twins who were All-Americans at Syracuse University and have dominated the sport for the past decade. Throughout, Fisher focuses on lacrosse as contested ground. Competing cultural interests, he explains, have clashed since English settlers in mid-nineteenth-century Canada first appropriated and transformed the "primitive" Mohawk game of tewaarathon, eventually turning it into a respectable "gentleman's" sport. Drawing on extensive primary research, he shows how amateurs and professionals, elite collegians and working-class athletes, field- and box-lacrosse players, Canadians and Americans, men and women, and Indians and whites have assigned multiple and often conflicting meanings to North America's first-and fastest growing-team sport.

State-of-the-art analysis of geological structures has become increasingly quantitative but traditionally, graphical methods are used in teaching. This innovative lab book provides a unified methodology for problem-solving in structural geology using linear algebra and computation. Assuming only limited mathematical training, the book begins with classic orientation problems and progresses to more fundamental topics of stress, strain and error propagation. It introduces linear algebra methods as the foundation for understanding vectors and tensors, and demonstrates the application of geometry and kinematics in geoscience without requiring students to take a supplementary mathematics course. All algorithms are illustrated with a suite of online MATLAB functions, allowing users to modify the code to solve their own structural problems. Containing 20 worked examples and over 60 exercises, this is the ideal lab book for advanced undergraduates or beginning graduate students. It will also provide professional structural geologists with a valuable reference and refresher for calculations.