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Performing the Matrix. Mediating Cultural Performances presents a collection of case studies and analyses dealing with performances of the matrix that take up questions of identities and social thinking, visualization and perception, the discursive power of texts and historiographic paradigms, and artistic strategies of political intervention. Since 1999 The Matrix has become a popular catchword through the homonymous Wachowski brothers’ movie. As both a traditional concept and a popular phenomenon, ‹matrix› can take on a new value when reconsidered in the light of performance studies. A behind-the-scenes look at theatre, performance, political activism and events may reveal a productive mediating structure that can metaphorically be described as a matrix. This mediating structure and its materializations are fundamentally reshaping modern culture. Accordingly ‹politics of visibility›, ‹media networking›,‹telepresence› and ‹liveness› are considered to be understood as performances of the matrix. If so, how does this understanding of cultural performances ‹as always already mediatized› influence contemporary concepts of performance and media?
From the New York Times bestselling author of Infinite Possibilities and Life on Earth Playing the Matrix is a master class for creating the life you want to live. Tried and true, delivered and perfected over a decade while being shared live with tens of thousands of students in 132 cities, in 34 countries, upon 6 continents. This is Mike Dooley’s advanced course on living deliberately and creating consciously. The concepts he shares were born of material he’s delivered to live audiences the world over, culminating in his most impactful, most transformational program ever. Now, for the first time in 17 years of touring, these ideas are to be shared in book form. At the heart of the Matrix lies a simple yet highly unexpected concept for creating major life change that’s unlike anything shared by other teachers, past and present. It clearly reveals why “manifesting” sometimes works with incredible ease, why it sometimes doesn’t work at all, and why, on occasion, it works, and yet in hindsight we wish it hadn’t. Readers will not only learn about the “Bermuda Triangle of Manifesting” that too often leads to heartbreak and loss, they’ll learn how to navigate around it, under full sail, with their own new “a-ha” moments that will teach them: • How to achieve clarity in purpose and desire and thereby avoid contradictions and self-sabotage • How to fuel their dreams with passion while not attaching to unimportant details and outcomes • How to plan and take action on their dreams without “messing with the cursed how’s”! And so much more...
College Algebra provides a comprehensive exploration of algebraic principles and meets scope and sequence requirements for a typical introductory algebra course. The modular approach and richness of content ensure that the book meets the needs of a variety of courses. College Algebra offers a wealth of examples with detailed, conceptual explanations, building a strong foundation in the material before asking students to apply what they've learned. Coverage and Scope In determining the concepts, skills, and topics to cover, we engaged dozens of highly experienced instructors with a range of student audiences. The resulting scope and sequence proceeds logically while allowing for a significant amount of flexibility in instruction. Chapters 1 and 2 provide both a review and foundation for study of Functions that begins in Chapter 3. The authors recognize that while some institutions may find this material a prerequisite, other institutions have told us that they have a cohort that need the prerequisite skills built into the course. Chapter 1: Prerequisites Chapter 2: Equations and Inequalities Chapters 3-6: The Algebraic Functions Chapter 3: Functions Chapter 4: Linear Functions Chapter 5: Polynomial and Rational Functions Chapter 6: Exponential and Logarithm Functions Chapters 7-9: Further Study in College Algebra Chapter 7: Systems of Equations and Inequalities Chapter 8: Analytic Geometry Chapter 9: Sequences, Probability and Counting Theory
"This book demonstrates Case's continued dominance of the field of lesbian performance studies. . . . Case's dense, rich, and complex work very likely will be a central text for anyone interested in debating the changing theoretical landscape for performance studies and queer theory. All readers interested in what the future might hold for scholarship in the humanities should study Case's thought-provoking work, which is an essential addition to any college or university's collection." —Choice ". . . this is a book that is enormously provocative, that will make you think and feel connected with the latest speculation on the implications of the electronic age we inhabit." —Lesbian Review of Books ". . . definitely required reading for any future-thinking lesbian." —Lambda Book Report The Domain-Matrix is about the passage from print culture to electronic screen culture and how this passage affects the reader or computer user. Sections are organized to emulate, in a printed book, the reader's experience of computer windows. Case traces the portrait of virtual identities within queer and lesbian critical practice and virtual technologies.
LNCS volumes 2073 and 2074 contain the proceedings of the International Conference on Computational Science, ICCS 2001, held in San Francisco, California, May 27 -31, 2001. The two volumes consist of more than 230 contributed and invited papers that reflect the aims of the conference to bring together researchers and scientists from mathematics and computer science as basic computing disciplines, researchers from various application areas who are pioneering advanced application of computational methods to sciences such as physics, chemistry, life sciences, and engineering, arts and humanitarian fields, along with software developers and vendors, to discuss problems and solutions in the area, to identify new issues, and to shape future directions for research, as well as to help industrial users apply various advanced computational techniques.
This book deals with the mathematical properties of dimensioned quantities, such as length, mass, voltage, and viscosity. Beginning with a careful examination of how one expresses the numerical results of a measurement and uses these results in subsequent manipulations, the author rigorously constructs the notion of dimensioned numbers and discusses their algebraic structure. The result is a unification of linear algebra and traditional dimensional analysis that can be extended from the scalars to which the traditional analysis is perforce restricted to multidimensional vectors of the sort frequently encountered in engineering, systems theory, economics, and other applications.
The general properties and mathematical structures of semiseparable matrices were presented in volume 1 of Matrix Computations and Semiseparable Matrices. In volume 2, Raf Vandebril, Marc Van Barel, and Nicola Mastronardi discuss the theory of structured eigenvalue and singular value computations for semiseparable matrices. These matrices have hidden properties that allow the development of efficient methods and algorithms to accurately compute the matrix eigenvalues. This thorough analysis of semiseparable matrices explains their theoretical underpinnings and contains a wealth of information on implementing them in practice. Many of the routines featured are coded in Matlab and can be downloaded from the Web for further exploration.
This volume is the first in a self-contained five-volume series devoted to matrix algorithms. It focuses on the computation of matrix decompositions--that is, the factorization of matrices into products of similar ones. The first two chapters provide the required background from mathematics and computer science needed to work effectively in matrix computations. The remaining chapters are devoted to the LU and QR decompositions--their computation and applications. The singular value decomposition is also treated, although algorithms for its computation will appear in the second volume of the series. The present volume contains 65 algorithms formally presented in pseudocode. Other volumes in the series will treat eigensystems, iterative methods, sparse matrices, and structured problems. The series is aimed at the nonspecialist who needs more than black-box proficiency with matrix computations. To give the series focus, the emphasis is on algorithms, their derivation, and their analysis. The reader is assumed to have a knowledge of elementary analysis and linear algebra and a reasonable amount of programming experience, typically that of the beginning graduate engineer or the undergraduate in an honors program. Strictly speaking, the individual volumes are not textbooks, although they are intended to teach, the guiding principle being that if something is worth explaining, it is worth explaining fully. This has necessarily restricted the scope of the series, but the selection of topics should give the reader a sound basis for further study.
Gives individuals and managers working in the matrix the tools to take control of their own goals and support others
Matrix analysis presented in the context of numerical computation at a basic level.