<p/><br></br><p><b> About the Book </b></p></br></br>"The second large addition to the textbook is a new section in the Thermodynamics topic with chapters covering thermodynamic processes, heat engines, entropy, and thermodynamic potentials. The material presented in these chapters goes further into some thermodynamics concepts than is typical for a first-year physics text. However, students are confronted with concepts like entropy and Gibb's energy in other courses they undertake as part of their training. These students cannot be expected to develop a deep understanding of these ideas in a single semester, especially in a course whose main purpose is teach chemistry or biochemistry. Our primary goal in this section of the book is to provide students with a secondary source of information which they may access later in their course of study, though it may also prove useful in joining physics with chemistry in integrated science programmes"--<p/><br></br><p><b> Book Synopsis </b></p></br></br><p><b>A thoroughly updated and extended new edition of this well-regarded introduction to the basic concepts of biological physics for students in the health and life sciences.</b><b> </b></p> <p>Designed to provide a solid foundation in physics for students following health science courses, the text is divided into six sections: Mechanics, Solids and Fluids, Thermodynamics, Electricity and DC Circuits, Optics, and Radiation and Health. Filled with illustrative examples, <i>Introduction to Biological Physics for the Health and Life Sciences, Second Edition </i>features a wealth of concepts, diagrams, ideas and challenges, carefully selected to reference the biomedical sciences. Resources within the text include interspersed problems, objectives to guide learning, and descriptions of key concepts and equations, as well as further practice problems. </p> <p>NEW CHAPTERS INCLUDE: </p> <ul> <li>Optical Instruments</li> <li>Advanced Geometric Optics</li> <li>Thermodynamic Processes</li> <li>Heat Engines and Entropy</li> <li>Thermodynamic Potentials</li> </ul> <p>This comprehensive text offers an important resource for health and life science majors with little background in mathematics or physics. It is also an excellent reference for anyone wishing to gain a broad background in the subject.</p> <p>Topics covered include: </p> <ul> <li>Kinematics</li> <li>Force and Newton's Laws of Motion Energy</li> <li>Waves Sound and Hearing</li> <li>Elasticity</li> <li>Fluid Dynamics Temperature and the Zeroth Law</li> <li>Ideal Gases Phase and Temperature Change</li> <li>Water Vapour</li> <li>Thermodynamics and the Body Static Electricity</li> <li> Electric Force and Field </li> <li>Capacitance</li> <li>Direct Currents and DC Circuits</li> <li>The Eye and Vision Optical Instruments</li> <li>Atoms and Atomic Physics </li> <li>The Nucleus and Nuclear Physics</li> <li>Ionising Radiation </li> <li>Medical imaging</li> <li>Magnetism and MRI</li> </ul> <p> </p> <p>Instructor's support material available through companion website, www.wiley.com/go/biological_physics</p><p/><br></br><p><b> From the Back Cover </b></p></br></br><p><b>A THOROUGHLY UPDATED AND EXTENDED NEW EDITION OF THIS WELL-REGARDED INTRODUCTION TO THE BASIC CONCEPTS OF BIOLOGICAL PHYSICS FOR STUDENTS IN THE HEALTH AND LIFE SCIENCES.</b> <p>Designed to provide a solid foundation in physics for students following health science courses, the text is divided into six sections: Mechanics, Solids and Fluids, Thermodynamics, Electricity and DC Circuits, Optics, and Radiation and Health. Filled with illustrative examples, <i> Introduction to Biological Physics for the Health and Life Sciences, Second Edition</i> features a wealth of concepts, diagrams, ideas and challenges, carefully selected to reference the biomedical sciences. Resources within the text include interspersed problems, objectives to guide learning, and descriptions of key concepts and equations, as well as further practice problems. <p><b>NEW CHAPTERS INCLUDE: </b> <ul> <li>Thermodynamic Processes</li> <li>Heat Engines and Entropy</li> <li>Thermodynamic Potentials</li> <li>Advanced Geometric Optics</li> <li>Optical Instruments</li> </ul> <p>This comprehensive text offers an important resource for health and life science majors with little background in mathematics or physics. It is also an excellent reference for anyone wishing to gain a broad background in the subject. <p><b>Topics covered include: </b> <ul> <li>Kinematics</li> <li>Force and Newton's Laws of Motion Energy</li> <li>Waves Sound and Hearing</li> <li>Elasticity</li> <li>Fluid Dynamics Temperature and the Zeroth Law</li> <li>Ideal Gases Phase and Temperature Change</li> <li>Water Vapour</li> <li>Thermodynamics and the Body Static Electricity</li> <li>Electric Force and Field</li> <li>Capacitance</li> <li>Direct Currents and DC Circuits</li> <li>The Eye and Vision Optical Instruments</li> <li>Atoms and Atomic Physics</li> <li>The Nucleus and Nuclear Physics</li> <li>Ionising Radiation</li> <li>Medical Imaging</li> <li>Magnetism and MRI</li> </ul><p/><br></br><p><b> About the Author </b></p></br></br><p><b>Dr Terry F. Scott</b>, Department of Physics, University of Otago, New Zealand<br />Research interests include many body theory, Bose Einstein condensation and Physics Education.</p> <p>Assisted by: <b>Kirsten Franklin, Paul Muir, Lara Wilcocks, Paul Yates</b> and The Staff of the Department of Physics, University of Otago, New Zealand.</p>
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