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Principles and Models of Biological TransportTransport processes are ubiquitous in the living organism, underlying nerve conduction and muscle contraction, digestion, kidney function and the nourishment of every cell in the body. The mechanisms by which these processes take place, and the models that describe them, are the subject of Principles and Models of Biological Transport,... | | Integrated Chemical Processes: Synthesis, Operation, Analysis, and Control"It is probably as comprehensive, didactic, and rich in examples as is possible at the present time." (Angewandte Chemie)
This is the first book dedicated to the entire field of integrated chemical processes, covering process design, analysis, operation and control of these processes. Both the editors and authors are... | | Modeling Complex Systems (Graduate Texts in Contemporary Physics)This book is about the dynamics of complex systems. Roughly speaking, a system is a collection of interacting elements making up a whole such as, for instance, a mechanical clock. While many systems may be quite complicated, they are not necessarily considered to be complex. There is no precise definition of complex systems.... |
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Statistical and Computational Techniques in Manufacturing
In recent years, interest in developing statistical and computational techniques for applied manufacturing engineering has been increased. Today, due to the great complexity of manufacturing engineering and the high number of parameters used, conventional approaches are no longer sufficient. Therefore, in manufacturing, statistical and... | | Introduction to Robotics: Mechanics and ControlNow in its third edition, Introduction to Robotics by John J. Craig provides readers with real-world practicality with underlying theory presented. With one half of the material from traditional mechanical engineering material, one fourth control theoretical material, and one fourth computer science, the book covers rigid-body... | | Classical And Quantum Dissipative SystemsThis book discusses issues associated with the quantum mechanical formulation of dissipative systems. It begins with an introductory review of phenomenological damping forces, and the construction of the Lagrangian and Hamiltonian for the damped motion. It is shown, in addition to these methods, that classical dissipative forces can also be derived... |
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