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Intended for physiotherapy students as an introduction to the basic principles of physics.
Electrotherapy Explained is an excellent research-based exploration of the major types of electrophysical agents used in clinical practice, particularly human and also animal. For the fourth edition, two new authors join the writing team, presenting the latest information for today's clinicians. The text has been completely updated with a major rewrite of the material, particularly that on electrical stimulation. This book continues to focus on evidence: clinical and biophysical evidence that affects how and which electrotherapies may be of use clinically and when. The inclusion of biophysics as well as clinical evidence and principles of application, enables clinicians to move away from traditional 'recipe-based' approaches and rely more on their own clinical reasoning. The focus remains on humans but the relevance of the principles for using and applying different modalities is explained clearly, providing guidelines for clinicians across disciplines and specialties. Up to date research detailing the evidence both supportive and deprecatory for the use of each modality Written by experts from biophysics and the clinical domains Comprehensive and well referenced Clear and well chosen illustrations elucidate the text Text boxes and summary sections help to break down what is sometimes a complex subject into manageable and memorable chunks Contraindications and risks have been updated in light of the most recent research Three books for the price of one - the website (http://booksite.elsevier.com/9780750688437) contains the entire texts of 'Physical Principles Explained' by Low and Reed, and 'Biophysical Bases of Electrotherapy' by Ward. The text directs readers to the website for further reading at relevant points.
Physical Principles of Sedimentology is a textbook devoted to the physics of sedimentological processes. The applicability of fundamental principles, such as Newton's Three Laws of Motion, Law of Conservation of Energy, First and Second Laws of Thermodynamics, and of other physical relations in hydraulics and groundwater hydrology is illustrated by discussions of natural processes which form sediments or sedimentary rocks. The author's educational background as a major in physics and geology, and his 40-year experience in teaching and research help him bring together physics and geology in this enjoyable and highly readable form.
A quantitative yet accessible introduction to remote sensing techniques, this new edition covers a broad spectrum of Earth science applications.
Nobel Laureate discusses quantum theory, uncertainty, wave mechanics, work of Dirac, Schroedinger, Compton, Einstein, others. "An authoritative statement of Heisenberg's views on this aspect of the quantum theory." ? Nature.
The observation and manipulation of individual molecules is one of the most exciting developments in modern molecular science. Single Molecule Science: Physical Principles and Models provides an introduction to the mathematical tools and physical theories needed to understand, explain, and model single-molecule observations. This book explains the
Scanning and stationary-beam electron microscopes are indispensable tools for both research and routine evaluation in materials science, the semiconductor industry, nanotechnology and the biological, forensic, and medical sciences. This book introduces current theory and practice of electron microscopy, primarily for undergraduates who need to understand how the principles of physics apply in an area of technology that has contributed greatly to our understanding of life processes and "inner space." Physical Principles of Electron Microscopy will appeal to technologists who use electron microscopes and to graduate students, university teachers and researchers who need a concise reference on the basic principles of microscopy.
What is the best shape for a sailboat? How does turbulence affect a sailboat's movement through the water? Why do some keels have wings? Is it true that some sailboats can sail faster upwind than downwind? Authoritative yet accessible, The Physics of Sailing Explained is the perfect book for all those sailors who want to enhance their understanding and enjoyment of life at sea. It will enable cruisers and racers alike to better grasp how sails, keels, and hulls work together to keep boats afloat, and will sharpen their skills with a more subtle and thorough appreciation of why various boat design features are present and why certain tactics work in certain situations. Anderson outlines the science behind sailing in a way that anyone can understand and benefit from without having to trudge through a physics text or became a naval architect. Concepts are conveyed simply, concisely, and with many examples and illustrations. With the help of this invaluable book, sailors will be better prepared to handle any situations that might arise on the water.