Over two million men were recruited for the regiments from the Confederate States of Mississippi, Alabama, Georgia, Florida, Louisiana, Texas, South Carolina, Tennessee, Arkansas, North Carolina, Virginia, Kentucky, Missouri, Cherokee Nation, and parts of Maryland throughout 18611865! The Adjutants of Confederate units persevered over three years of unbelievable hardship valorously and under constant threat of death! Honoring all Kentuckians past and present! Part of the real life story is given to us through the memoirs and diary of Mr. J. B. Jones, war clerk, Richmond, Virginia; President Davis, and numerous generals. Every attempt has been made to fully represent our adjutant general in this book to include a departmental and field roster of all adjutants (AAGs) and clerks who selfishly served their state, their conscience, and the Confederacy!
The main aim of this book is to give a self-contained and representative cross section through present-day research in solid-state physics. This covers metallic and mesoscopic transport, localization by disorder and superconductivity, including questions related to high-temperature superconductors and to heavy fermion systems. An important part of the book is devoted to itinerant-electron magnetism, discussing paramagnons, strong correlation, magnetization fluctuations and spin density waves. All the formal tools used in these chapters are developed in the first part of the book which contains a thorough discussion of second quantization and of perturbation theory for an arbitrary complex time path and also describes the functional approach to Feynman diagrams including general ward identities. Each chapter contains an extensive list of the relevant literature and a series of problems with detailed solutions which complement the main text. The book is meant both as a course and a research tool.
The main aim of this book is to give a self-contained and representative cross section through present-day research in solid-state physics. This covers metallic and mesoscopic transport, localization by disorder and superconductivity, including questions related to high-temperature superconductors and to heavy fermion systems. An important part of the book is devoted to itinerant-electron magnetism, discussing paramagnons, strong correlation, magnetization fluctuations and spin density waves. All the formal tools used in these chapters are developed in the first part of the book which contains a thorough discussion of second quantization and of perturbation theory for an arbitrary complex time path and also describes the functional approach to Feynman diagrams including general ward identities. Each chapter contains an extensive list of the relevant literature and a series of problems with detailed solutions which complement the main text. The book is meant both as a course and a research tool.
This volume is a translation and revision of the Original Russian version by Baryahktar. It covers all of the main fields involved in Condensed Matter Physics, such as crystallography, electrical properties, fluids, magnetism, material properties, optics, radiation, semiconductors, and superconductivity, as well as highlights of important related subjects such as quantum mechanics, spectroscopy, and statistical mechanics. Both theoretical and experimental aspects of condensed matter are covered in detail. The entries range from very short paragraphs on topics where definitions are needed, such as Bloch's law, clathrate compound, donor, domain, Kondo lattice, mean free path, and Wigner crystal, to long discussions of more general or more comprehensive topics such as antiferromagnetism, crystal lattice dynamics, dislocations, Fermi surface, Josephson effect, luminescence, magnetic films, phase transitions and semiconductors. The main theoretical approaches to Condensed Matter Physics are explained. There are several long tables on, for example, Bravais lattices, characteristics of magnetic materials, units of physical quantities, symmetry groups. The properties of the main elements of the periodic table are given. Numerous entries not covered by standard Solid State Physics texts o Self-similarity o The adiabatic approximation o Bistability Emphasis on materials not discussed in standard texts o Activated carborn o Austenite o Bainite o Calamitics o Carbine o Delat phase o Discotics o Gunier-Preston zones o Heterodesmic structures o Heusler Alloys o Stress and strain deviators o Vicalloy · Each entry is fully cross-referenced to help tracking down all aspects of a topic under investigation Highly illustrated to clarify many concepts
Many-Sorted Algebras for Deep Learning and Quantum Technology presents a precise and rigorous description of basic concepts in Quantum technologies and how they relate to Deep Learning and Quantum Theory. Current merging of Quantum Theory and Deep Learning techniques provides a need for a text that can give readers insight into the algebraic underpinnings of these disciplines. Although analytical, topological, probabilistic, as well as geometrical concepts are employed in many of these areas, algebra exhibits the principal thread. This thread is exposed using Many-Sorted Algebras (MSA). In almost every aspect of Quantum Theory as well as Deep Learning more than one sort or type of object is involved. For instance, in Quantum areas Hilbert spaces require two sorts, while in affine spaces, three sorts are needed. Both a global level and a local level of precise specification is described using MSA. At a local level operation involving neural nets may appear to be very algebraically different than those used in Quantum systems, but at a global level they may be identical. Again, MSA is well equipped to easily detail their equivalence through text as well as visual diagrams. Among the reasons for using MSA is in illustrating this sameness. Author Charles R. Giardina includes hundreds of well-designed examples in the text to illustrate the intriguing concepts in Quantum systems. Along with these examples are numerous visual displays. In particular, the Polyadic Graph shows the types or sorts of objects used in Quantum or Deep Learning. It also illustrates all the inter and intra sort operations needed in describing algebras. In brief, it provides the closure conditions. Throughout the text, all laws or equational identities needed in specifying an algebraic structure are precisely described. Includes hundreds of well-designed examples to illustrate the intriguing concepts in quantum systems Provides precise description of all laws or equational identities that are needed in specifying an algebraic structure Illustrates all the inter and intra sort operations needed in describing algebras
Loring and Rounds: A Trustee's Handbook--well over 1,550 pages--is regarded not only as authoritative but also as the most convenient, reliable, and complete single-volume source for trust doctrine. Get in-depth information on how to stay on top of the developments in this complex field of practice. The Handbook carries on the tradition of concise, practical, and up-to-date guidance for trustees, a tradition that began in 1898 with the First Edition. This classic trust reference distills the essence of trust law, illuminating the fundamental principles and answering the basic questions. Loring and Rounds: A Trustee's Handbook, 2016 Edition is up to date and includes eleven chapters of important information, such as chapters on: The Property Requirement The Trustee's Office Interests Remaining with the Settlor The Beneficiary The Trustee's Duties The Trustee's Liabilities Miscellaneous Topics of General Interest to the Trustee Special Types of Trusts The Income Taxation of Trusts Tax Basis/Cost of Trust Property
Sullivan's encyclopedic handbook traces the Golden State's wine industry from its mission period and Gold Rush origins down to last year's planting and vintage statistics--a complete reference, in handy A to Z format. 75 photos plus maps & tables.
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