Average Reviews:
(More customer reviews)This textbook is disconnected and poorly organized. The authors of each chapter are so absorbed in their own work that they don't seem to remember that the text is supposed to be for a multidisciplinary audience. The problem sets are hit or miss, and in some cases the solutions are not supported by the text (if you relied on the text alone, you couldn't solve the problems). The biomechanics and biomaterials chapters are good, but the imaging, fluids and mass transfer chapters are lacking. If you want a good, broad bioengineering text, you should look for the Ratner book instead.
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Bioengineering in this book is taken to be the application of the concepts and methods of the physical sciences and mathematics in an engineering approach to problems in the life sciences. The aim of such studies is to understand the physical process and engineering aspects of a system's performance both under normal and abnormal conditions, and to design and use diagnostic or artificial devices meant to measure, improve, safeguard, or replace life functions. The material in this book is based on the course given at the University of California at Berkeley. The text contains contributions from instructors in mechanical, electrical, chemical, and nuclear engineering as well as from orthopedics and human biodynamics. The topics mirror the fundamental engineering science taught in the various engineering areas, usually at the intermediate university level, but as applied to problems in the biological world. The basic principles of engineering science are presented so that students will be able to grasp the essence of a particular topic quickly, whatever their background. Many worked examples and problems (together with selected solutions) are included throughout the text.
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