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9781439820872 English 1439820872 Chemical thermodynamics is at a juncture, as today much of chemical science is assisted by digital computation weighted toward both industry and information, but current studies of thermodynamics do not reflect this. This book details how thermodynamic transformations are grounded on the insights derived from an intimate knowledge of modern information theory. Going beyond classical thermodynamics and information theory, the text explores the fusion of molecular information and electronic structure theory, non-equilibrium and finite time thermodynamics, quantum computation, and applications of information theory to bioinformatics, proteomics, and genomics., Thermodynamics and information touch every facet of chemistry. However, the physical chemistry curriculum digested by students worldwide is still heavily skewed toward heat/work principles established more than a century ago. Rectifying this situation, Chemical Thermodynamics and Information Theory with Applicationsoffers tools and applications at the intersection of thermodynamics and information theory â€two mature and far-reaching fields. Addressing the intersection of thermodynamics and information theory, this book covers: The informational aspects of thermodynamic state equations The algorithmic aspects of transformations â€compression, expansion, cyclic, and more The principles of best-practice programming How molecules transmit and modify information via collisions and chemical reactions Using examples from physical and organic chemistry, this book demonstrates how the disciplines of thermodynamics and information theory are intertwined. Accessible to curiosity-driven chemists with knowledge of basic calculus, probability, and statistics, the book provides a fresh perspective on time-honored subjects such as state transformations, heat and work exchanges, and chemical reactions., Thermodynamics and information touch theory every facet of chemistry. However, the physical chemistry curriculum digested by students worldwide is still heavily skewed toward heat/work principles established more than a century ago. Rectifying this situation, Chemical Thermodynamics and Information Theory with Applications explores applications drawn fromthe intersection of thermodynamics and information theorye"two mature and far-reaching fields. In an approach that intertwines information science and chemistry, this book covers: The informational aspects of thermodynamic state equations The algorithmic aspects of transformationse"compression, expansion, cyclic, and more The principles of best-practice programming How molecules transmit and modify information via collisions and chemical reactions Using examples from physical and organic chemistry, this book demonstrates how the disciplines of thermodynamics and information theory are intertwined. Accessible to curiosity-driven chemists with knowledge of basic calculus, probability, and statistics, the book provides a fresh perspective on time-honored subjects such as state transformations, heat and work exchanges, and chemical reactions., Thermodynamics, information, and computation permeate virtually all areas of chemistry. Yet the current presentations of thermodynamic fundamentals do not reflect relationship, as the physical chemistry curriculum digested by chemistry majors worldwide is still concentrated on advances more than a century old. This book offers lessons, tools, and exercises for students and instructors who wish to learn more about the intersection of thermodynamics and information theory. The examples are drawn from time-honored physical and organic chemistry. The discussion is accessible to curiosity-driven chemists with basic knowledge of calculus and statistics.
9781439820872 English 1439820872 Chemical thermodynamics is at a juncture, as today much of chemical science is assisted by digital computation weighted toward both industry and information, but current studies of thermodynamics do not reflect this. This book details how thermodynamic transformations are grounded on the insights derived from an intimate knowledge of modern information theory. Going beyond classical thermodynamics and information theory, the text explores the fusion of molecular information and electronic structure theory, non-equilibrium and finite time thermodynamics, quantum computation, and applications of information theory to bioinformatics, proteomics, and genomics., Thermodynamics and information touch every facet of chemistry. However, the physical chemistry curriculum digested by students worldwide is still heavily skewed toward heat/work principles established more than a century ago. Rectifying this situation, Chemical Thermodynamics and Information Theory with Applicationsoffers tools and applications at the intersection of thermodynamics and information theory â€two mature and far-reaching fields. Addressing the intersection of thermodynamics and information theory, this book covers: The informational aspects of thermodynamic state equations The algorithmic aspects of transformations â€compression, expansion, cyclic, and more The principles of best-practice programming How molecules transmit and modify information via collisions and chemical reactions Using examples from physical and organic chemistry, this book demonstrates how the disciplines of thermodynamics and information theory are intertwined. Accessible to curiosity-driven chemists with knowledge of basic calculus, probability, and statistics, the book provides a fresh perspective on time-honored subjects such as state transformations, heat and work exchanges, and chemical reactions., Thermodynamics and information touch theory every facet of chemistry. However, the physical chemistry curriculum digested by students worldwide is still heavily skewed toward heat/work principles established more than a century ago. Rectifying this situation, Chemical Thermodynamics and Information Theory with Applications explores applications drawn fromthe intersection of thermodynamics and information theorye"two mature and far-reaching fields. In an approach that intertwines information science and chemistry, this book covers: The informational aspects of thermodynamic state equations The algorithmic aspects of transformationse"compression, expansion, cyclic, and more The principles of best-practice programming How molecules transmit and modify information via collisions and chemical reactions Using examples from physical and organic chemistry, this book demonstrates how the disciplines of thermodynamics and information theory are intertwined. Accessible to curiosity-driven chemists with knowledge of basic calculus, probability, and statistics, the book provides a fresh perspective on time-honored subjects such as state transformations, heat and work exchanges, and chemical reactions., Thermodynamics, information, and computation permeate virtually all areas of chemistry. Yet the current presentations of thermodynamic fundamentals do not reflect relationship, as the physical chemistry curriculum digested by chemistry majors worldwide is still concentrated on advances more than a century old. This book offers lessons, tools, and exercises for students and instructors who wish to learn more about the intersection of thermodynamics and information theory. The examples are drawn from time-honored physical and organic chemistry. The discussion is accessible to curiosity-driven chemists with basic knowledge of calculus and statistics.