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This book provides complete coverage of all aspects of the study of all fossil palynomorphs yet studied. It is a profusely illustrated treatment. The book serves both as a student text and general reference work. Palynomorphs yield information about age, geological and biological environment, climate during deposition, and other significant factors about the enclosing rocks. Extant spores and pollen are treated first, preparing the student for more difficult work with fossil sporomorphs and other kinds of palynomorphs. An appendix describes laboratory methods. The glossary, bibliographies and index are useful tools for study of the literature.
Advances in Carbon Research and Application / 2012 Edition is a ScholarlyEditions™ eBook that delivers timely, authoritative, and comprehensive information about Carbon. The editors have built Advances in Carbon Research and Application / 2012 Edition on the vast information databases of ScholarlyNews.™ You can expect the information about Carbon in this eBook to be deeper than what you can access anywhere else, as well as consistently reliable, authoritative, informed, and relevant. The content of Advances in Carbon Research and Application / 2012 Edition has been produced by the world’s leading scientists, engineers, analysts, research institutions, and companies. All of the content is from peer-reviewed sources, and all of it is written, assembled, and edited by the editors at ScholarlyEditions™ and available exclusively from us. You now have a source you can cite with authority, confidence, and credibility. More information is available at http://www.ScholarlyEditions.com/.
This book incorporates 3 modern aspects of mathematical physics: the jet methods in differential geometry, Lagrangian formalism on jet manifolds and the multimomentum approach to Hamiltonian formalism. Several contemporary field models are investigated in detail.This is not a book on differential geometry. However, modern concepts of differential geometry such as jet manifolds and connections are used throughout the book. Quadratic Lagrangians and Hamiltonians are studied at the general level including a treatment of Hamiltonian formalism on composite fiber manifolds. The book presents new geometric methods and results in field theory.
From scholars working in a variety of institutional and geographic contexts and with a wide range of student populations, Retention, Persistence, and Writing Programs offers perspectives on how writing programs can support or hinder students’ transitions to college. The contributors present individual and program case studies, student surveys, a wealth of institutional retention data, and critical policy analysis. Rates of student retention in higher education are a widely acknowledged problem: although approximately 66 percent of high school graduates begin college, of those who attend public four-year institutions, only about 80 percent return the following year, with 58 percent graduating within six years. At public two-year institutions, only 60 percent of students return, and fewer than a third graduate within three years. Less commonly known is the crucial effect of writing courses on these statistics. First-year writing is a course that virtually all students have to take; thus, writing programs are well-positioned to contribute to larger institutional conversations regarding retention and persistence and should offer themselves as much-needed sites for advocacy, research, and curricular innovation. Retention, Persistence, and Writing Programs is a timely resource for writing program administrators as well as for new writing teachers, advisors, administrators, and state boards of education. Contributors: Matthew Bridgewater, ​Cristine Busser, Beth Buyserie, Polina Chemishanova, ​Michael Day, ​Bruce Feinstein, ​Patricia Freitag Ericsson, ​Nathan Garrett, ​Joanne Baird Giordano, ​Tawanda Gipson, ​Sarah E. Harris, Mark Hartlaub, ​Holly Hassel, ​Jennifer Heinert, ​Ashley J. Holmes, ​Rita Malenczyk, ​Christopher P. Parker, ​Cassandra Phillips, ​Anna Plemons, ​Pegeen Reichert Powell, ​Marc Scott, Robin Snead, ​Sarah Elizabeth Snyder, ​Sara Webb-Sunderhaus, ​Susan Wolff Murphy
How can we know the microscopic world without a measurement theory? What are the general conditions of the world that make possible such knowledge? What are the presuppositions of physical theories? This book includes an analysis of quantum field theory, and quantum mechanics and interacting systems are addressed in a unified framework.
Geometrical notions and methods play an important role in both classical and quantum field theory, and a connection is a deep structure which apparently underlies the gauge-theoretical models. This collection of basic mathematical facts about various types of connections provides a detailed description of the relevant physical applications. It discusses the modern issues concerning the gauge theories of fundamental interactions. This text presents several levels of complexity, from the elementary to the advanced, and provides a considerable number of exercises. The authors have tried to give all the necessary mathematical background, thus making the book self-contained. This book should be useful to graduate students, physicists and mathematicians who are interested in the issue of deep interrelations between theoretical physics and geometry.
Contemporary quantum field theory is mainly developed as quantization of classical fields. Therefore, classical field theory and its BRST extension is the necessary step towards quantum field theory. This book aims to provide a complete mathematical foundation of Lagrangian classical field theory and its BRST extension for the purpose of quantization. Based on the standard geometric formulation of theory of nonlinear differential operators, Lagrangian field theory is treated in a very general setting. Reducible degenerate Lagrangian theories of even and odd fields on an arbitrary smooth manifold are considered. The second Noether theorems generalized to these theories and formulated in the homology terms provide the strict mathematical formulation of BRST extended classical field theory. The most physically relevant field theories ? gauge theory on principal bundles, gravitation theory on natural bundles, theory of spinor fields and topological field theory ? are presented in a complete way.This book is designed for theoreticians and mathematical physicists specializing in field theory. The authors have tried throughout to provide the necessary mathematical background, thus making the exposition self-contained.