The second edition of The Substance Abuse Handbook follows the general organization of the 'big' book, Lowinson and Ruiz's Substance Abuse. This title distills content from the larger text into a concise, portable guide for healthcare professionals who need to diagnose and treat addictive disorders and related medical conditions.
The Substance Abuse Handbook succinctly presents the most clinically relevant information from Lowinson, Ruiz, Millman and Langrod's Substance Abuse: A Comprehensive Textbook, Fourth Edition. In a user-friendly format, this portable handbook provides all the information health care professionals need to diagnose and treat addictive disorders and associated medical conditions. Major sections cover etiological factors, substances of abuse, compulsive and addictive behaviors, evaluation and diagnostic classification, treatment modalities, management of associated medical conditions, substance abuse in children, adolescents, and the elderly, women's issues, special groups and settings, models of prevention, training and education, and policy issues.
The fourth edition of Mechanics of Materials is an in-depth yet accessible introduction to the behavior of solid materials under various stresses and strains. Emphasizing the three key concepts of deformable-body mechanics—equilibrium, material behavior, and geometry of deformation—this popular textbook covers the fundamental concepts of the subject while helping students strengthen their problem-solving skills. Throughout the text, students are taught to apply an effective four-step methodology to solve numerous example problems and understand the underlying principles of each application. Focusing primarily on the behavior of solids under static-loading conditions, the text thoroughly prepares students for subsequent courses in solids and structures involving more complex engineering analyses and Computer-Aided Engineering (CAE). The text provides ample, fully solved practice problems, real-world engineering examples, the equations that correspond to each concept, chapter summaries, procedure lists, illustrations, flow charts, diagrams, and more. This updated edition includes new Python computer code examples, problems, and homework assignments that require only basic programming knowledge.
Thoroughly revised and updated, the Workbook to Accompany EMT Prehospital Care, Third Edition, reinforces the basic prinicples and skills needed to pass the National Registry or state EMT-Basic examination - and to successfully practice in the field. Outstanding features include: Approximately 1,950 questions in a variety of formats - including multiple-choice, true/false, matcing, fill-in-the-blank, and case studies - help you learn and understand essential EMS concepts. Case studies in every chapter help you picture yourself as a "street EMT," responsible for the complete care of the patient. You identify the treatment order and priority for simulated patients - just like in the field! Complete coverage of the cognitive obectives of the U.S. DOT EMT-Basic Curriculum gives you the knowledge and critical thinking skills you need for success in exams and in the field! Anatomy labeling questions, crossword puzzles, and a CPR Review make reviewing convenient and fun. National Registry Skill Sheets are included in an appendix to aid in skills review and practice.
The book looks into the recent advances in the ex-situ production routes and properties of aluminum and magnesium based metal matrix nanocomposites (MMNCs), produced either by liquid or semi-solid state methods. It comprehensively summarizes work done in the last 10 years including the mechanical properties of different matrix/nanoreinforcement systems. The book also addresses future research direction, steps taken and missing developments to achieve the full industrial exploitation of such composites. The content of the book appeals to researchers and industrial practitioners in the area of materials development for metal matrix nanocomposites and its applications.
The Army Materials and Mechanics Research Center in coop eration with the Materials Science Group of the Department of Chemical Engineering and Materials Science of Syracuse University has been conducting the Annual Sagamore Army Materials Research Conference since 1954. The specific purpose of these conferences has been to bring together scientists and engineers from academic institutions, industry and government who are uniquely qualified to explore in depth a subject of importance to the Department of Defense, the Army and the scientific community. These proceedings, entitled RESIDUAL STRESS AND STRESS RELAXATION, address the nature of residual stresses and their measurements, the sources of residual stress, stress relaxation, sub-critical crack growth in the presence of residual stress, residual stresses and properties, and research in progress. We wish to acknowledge the assistance of Mr. Dan McNaught of the Army Materials and Mechanics Research Center and Mr. Robert J. Sell and Helen Brown DeMascio of Syracuse University throughout the stages of the conference planning and finally the publication of the book. The continued active interest and support of these conferences by Dr. E. Wright, Director of the Army Materials and Mechanics Research Center, is appreciated.
Now in four convenient volumes, Field’s Virology remains the most authoritative reference in this fast-changing field, providing definitive coverage of virology, including virus biology as well as replication and medical aspects of specific virus families. This volume of Field’s Virology: RNA Viruses, Seventh Edition covers the latest information on RNA viruses, how they cause disease, how they can cause epidemics and pandemics, new therapeutics and vaccine approaches, as provided in new or extensively revised chapters that reflect these advances in this dynamic field. Bundled with the eBook, which will be updated regularly as new information about each virus is available, this text serves as the authoritative, up-to-date reference book for virologists, infectious disease specialists, microbiologists, and physicians, as well as medical students pursuing a career in infectious diseases.
The new edition of this definitive textbook reflects the continuing reintegration of psychiatry into the mainstream of biomedical science. The research tools that are transforming other branches of medicine - epidemiology, genetics, molecular biology, imaging, and medicinal chemistry - are also transforming psychiatry. The field stands poised to make dramatic advances in defining disease pathogenesis, developing diagnostic methods capable of identifying specific and valid disease entities, discovering novel and more effective treatments, and ultimately preventing psychiatric disorders. The Neurobiology of Mental Illness is written by world-renowned experts in basic neuroscience and the pathophysiology and treatment of psychiatric disorders. It begins with a succint overview of the basic neurosciences followed by and evaluation of the tools that are available for the study of mental disorders in humans. The core of the book is a series of consistently organized sections on the major psychiatric disorders that cover their diagnostic classification, molecular genetics, functional neuroanatomy, neurochemistry and pharmacology, neuroimaging, and principles of pharmacotherapy. Chapters are written in a clear style that is easily accessible to practicing psychiatrists, and yet they are detailed enough to interest researchers and academics. For this second edition, every section has been thoroughly updated, and 13 new chapters have been added in areas where significant advances have been made, including functional genomics and animal models of illness; epidemiology; cognitive neuroscience; postmortem investigation of human brain; drug discovery methods for psychiatric disorders; the neurobiology of schizophrenia; animal models of anxiety disorders; neuroimaging studies of anxiety disorders; developmental neurobiology and childhood onset of psychiatric disorders; the neurobiology of mental retardation; the interface between neurological and psychiatric disorders; the neurobiology of circadian rhythms; and the neurobiology of sleep disorders. Both as a textbook and a reference work, Neurobiology of Mental Illness represents a uniquely valuable resource for psychiatrists, neuroscientists, and their students or trainees.
Li-Co-Mn-Ni oxides have been of extreme interest as potential positive electrode materials for next generation Li-ion batteries. Though many promising materials have been discovered and studied extensively, much debate remains in the literature about the structures of these materials. There is no consensus as to whether the lithium-rich layered materials are single-phase or form a layered-layered composite on the few nanometer length-scales. Much of this debate came about because no phase diagrams existed to describe these systems under the synthesis conditions used to make electrode materials. Detailed in this thesis are the complete Li-Co-Mn-O and Li-Mn-Ni-O phase diagrams generated by way of the combinatorial synthesis of mg-scale samples at over five hundred compositions characterized with X-ray diffraction. Selected bulk samples were used to confirm that the findings are relevant to synthesis conditions used commercially. The results help resolve a number of points of confusion and contradiction in the literature. Amongst other important findings, the compositions and synthesis conditions giving rise to layered-layered nano-composites are presented and electrochemical results are used to show how better electrode materials can be achieved by making samples in the single phase-layered regions.
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