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200 10$aDiscover entropy and the second law of thermodynamics$b[electronic resource] $ea playful way of discovering a law of nature /$fArieh Ben-Naim
210   $aSingapore ;$aHackensack, N.J. $cWorld Scientific$dc2010
215   $a1 online resource (300 p.)
300   $aDescription based upon print version of record.
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320   $aIncludes bibliographical references (p. 257-258) and index.
327   $aContents; Preface; Self-Testing Kit; List of Abbreviations; Acknowledgement; CHAPTER 1 Introduction: A Brief History of Entropy and the Second Law of Thermodynamics; CHAPTER 2 All You Need to Know but Never Dared to Admit that You Already Know; CHAPTER 3 Discover the Uniform Spatial Distribution; CHAPTER 4 Discover the Boltzmann Distribution; CHAPTER 5 Discover the Maxwell-Boltzmann Distribution; CHAPTER 6 Entropy and the Second Law in theWorld of Marbles; CHAPTER 7 Entropy and the Second Law in the Real World; CHAPTER 8 Notes; Epilogue; References and Suggested Reading; Index
330   $aThis is a sequel to the author's book entitled ""Entropy Demystified"". The aim is essentially the same as that of the previous book by the author: to present Entropy and the Second Law as simple, meaningful and comprehensible concepts. In addition, this book presents a series of experiments which are designed to help the reader discover entropy and the Second Law. While doing the experiments, the reader will encounter no unexpected results, and concepts of entropy and the Second Law will emerge naturally from these experiments without a tinge of mystery. These concepts are explained with the 
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200 10$aMolecular and Computational Modeling of Cardiac Function /$fedited by Thomas Jue
205   $a1st ed. 2024.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Springer,$d2024.
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225 1 $aHandbook of Modern Biophysics,$x2698-3818 ;$v7
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327   $aIntroduction to Atomistic Modeling and Simulation of Biomolecular Systems -- Investigating -- Cardiovascular Function Modulation via Atomistic Modeling and Simulations -- Bifurcation Phenomena in Cardiac System and Its Analyzes -- Modeling and simulation of drug actions on cardiac ion channels and myocytes -- Modeling the Function of Myoglobin in Myocardium -- Population based computational approaches to investigate cardiac arrhythmia risk.
330   $aThe Handbook of Modern Biophysics series focuses on current biophysics topics and presents fundamental concepts and biomedical application in biology, medical, engineering, mathematics, and physical-science students or researchers. The reader can learn to use novel biophysics techniques to address a range of research challenges. Each chapter develops the conceptual framework of the physics formalism and illustrates the biomedical applica­tions. With the addition of problem sets, guides to further study, and references, the interested reader can continue to independently explore the ideas presented in the chapters. Volume 7: Molecular and Computational Modeling of Cardiac Function Editor Thomas Jue, PhD In Molecular and Computational Modeling of Cardiac Function, a group of prominent professors and researchers explain the fundamental concepts of molecular modeling and illustrate the biomedical applications. The book covers the following topics: Principles of atomistic modeling and simulation of biomolecular systems. Using atomistic modeling to predict the cardiotoxicity of an arrhythmia drug molecule. Bifurcation phenomena in cardiac system as control design of automaticity and arrhythmia. Modeling the role of myoglobin as a fatty acid transporter. Population-based computational approaches to investigate cardiac arrhythmia. About the Editor Thomas Jue is Professor of Biochemistry and Molecular Medicine at the University of California Davis. He is an internationally recognized expert in developing and applying magnetic resonance techniques to study animal as well as human physiology in vivo and has published extensively in the field of magnetic resonance spectroscopy and imaging, near-infrared spectroscopy, bioenergetics, cardiovascular regulation, exercise, and marine biology. He served as a Chair of the Biophysics Graduate Group Program at UC Davis, where he started to redesign a graduate curriculum that balanced physical science/mathematics formalism and biomedical perspective and has continued to promote interdisciplinary interest at the interface of physical science, engineering, mathematics, biology, and medicine. The Handbook of Modern Biophysics represents an aspect of that effort.
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606   $aPhysiology
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606   $aCytology
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