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This new edition has been fully revised to provide radiologists with the latest advances in radiological physics. Divided into six sections, the book begins with an overview of general physics, followed by a section on radiation physics. The remaining chapters cover physics of diagnostic radiology, physics of nuclear medicine, physics of radiation therapy, and radiological health and safety. The second edition features many new topics, recent advances and detailed explanations of complicated concepts. The comprehensive text is further enhanced by nearly 350 radiological images, diagrams and tables. Key points Fully revised new edition providing latest advances in radiological physics Second edition features new topics, recent advances and explanations of complicated concepts Highly illustrated with nearly 350 radiological images, diagrams and tables Previous edition (9788171798544) published in 2001
This book explains the principles, instrumentation, function, application and limitations of all radiological techniques – radiography, fluoroscopy, mammography, computed tomography, ultrasound and magnetic resonance imaging. Beginning with an introduction to the fundamental concepts, the following chapters provide in depth coverage of each of the techniques from the perspective of a medical physicist. Presented in an easy to read format, this book is an invaluable reference for postgraduate students in medical physics and radiology and candidates training for FRCR exams. It includes nearly 280 images, illustrations and tables to enhance learning. Key points Explains principles, instrumentation, function, application and limitations of all radiological techniques Presented from perspective of medical physicists Includes nearly 280 images, illustrations and tables Highly useful for postgraduates in medical physics and radiology, and FRCR candidates
The new edition of this book is a complete guide to medical X-ray film processing and digital radiography. Divided into ten chapters, the first half of the book examines fundamental concepts, X-ray production, the film, darkroom, cassette, and intensifying screens; processing, and image quality. With the increasing use of computed radiography, and reduced use of X-ray in modern medicine, the second half of the book discusses the differences in quality, viewing and recording, quality assurance, and health and safety aspects of digital radiography. The second edition has been fully revised with many new topics added, to present the latest advances in the field. The comprehensive text is formatted in an easy to follow manner, accompanied by X-ray and digital images, figures and tables, providing trainees with an invaluable learning tool. Key points Comprehensive guide to medical X-ray film processing and digital radiography Fully revised, second edition with many new topics Highly illustrated with X-ray and digital images, figures and tables Previous edition (9788180613982) published in 2005
Radiobiology, also known as radiation biology, is a field of clinical and basic medical sciences that involves the study of the action of ionising radiation on living things. This handbook is a complete guide to radiobiology for postgraduate students. Beginning with an overview of human biology and radiation physics, the following chapters explain the interaction of radiation with cells, its beneficial damage to cancer cells, and adverse effects on normal cells and organs. The final sections of the book cover time, dose and fractionation models, and radiation safety and protection. Enhanced by images and tables, this useful reference text is presented in a logical format with simple terms to assist learning and understanding. Key Points Complete guide to radiobiology for postgraduate students Covers beneficial damage to cancer cells and adverse effects on normal cells Explains time, dose and fractionation models Logical, easy to understand format
Fundamental Concepts Electromagnetic Induction Medical X-rays Radioactivity and Gamma Rays Interactions of Radiation with Matter Radiation Dosimetry Linear Accelerators External Beam Characteristics Basics of Treatment Planning Clinical Treatment Planning Particle Radiotherapy Brachytherapy Quality Assurance Radiation Protection Oncology Imaging
At a time when more and more of what people learn both in formal courses and in everyday life is mediated by technology, Learning Online provides a much-needed guide to different forms and applications of online learning. This book describes how online learning is being used in both K-12 and higher education settings as well as in learning outside of school. Particular online learning technologies, such as MOOCs (massive open online courses), multi-player games, learning analytics, and adaptive online practice environments, are described in terms of design principles, implementation, and contexts of use. Learning Online synthesizes research findings on the effectiveness of different types of...