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Molecular driving forces : statistical thermodynamics in biology, chemistry, physics, and nanoscience / Ken A. Dill, Sarina Bromberg.

By: Dill, Ken A.
Contributor(s): Bromberg, Sarina.
Material type: materialTypeLabelBookPublisher: London ; New York : Garland Science / Taylor & Francis, c.2011Edition: 2nd ed.Description: xx, 756 p. : ill. ; 28 cm.ISBN: 9780815344308 (pbk.).Subject(s): Statistical thermodynamics | | Engineering, Chemical Engineering, General Generalities November2018Genre/Form: -- Reading bookDDC classification: 536.7
Contents:
Principles of probability -- Extremum principles predict equilibria -- Heat, work, & energy -- Math tools : multivariate calculus -- Entropy & the Boltzmann law -- Thermodynamic driving forces -- The logic of thermodynamics -- Laboratory conditions & free energies -- Maxwell's relations & mixtures -- The Boltzmann distribution law -- The statistical mechanics of simple gases & solids -- What is temperature? : What is heat capacity? -- Chemical equilibria -- Equilibria between liquids, solids, & gases -- Solutions & mixtures -- Solvation & the transfer of molecules between phases -- Physical kinetics : diffusion, permeation, & flow -- Microscopic dynamics -- Chemical kinetics & transition states -- Coulomb's law of electrostatic forces -- The electrostatic potential -- Electrochemical equilibria -- Salt ions shield charged objects in solution -- Intermolecular interactions -- Phase transitions -- Cooperativity : the helix-coil, Ising, & Landau models -- Adsorption, binding, & catalysis -- Multi-site & cooperative Ligand binding -- Bio & nano machines -- Water -- Water as a solvent -- Polymer solutions -- Polymer elasticity & collapse -- Polymers resist confinement & deformation.
Summary: "Molecular driving forces, second edition is an introductory statistical thermodynamics text that describes the principles and forces that drive chemical and biological processes. The second edition includes an additional chapter on thermodynamics and two new chapters: (1)"Microscopic dynamics" which explores single molecule experiments; and (2) "Bio and nano machines" which describes the workings of biological molecules including proteins and DNA. New examples and practical applications are integrated throughout the revised and updated text, exploring topics in biology, environmental and energy science, and nanotechnology. It also includes new end-of-chapter problems, and purely mathematical topics are now in appendices. Written in a clear and reader-friendly style, the book provides an excellent introduction to the subject for novices while remaining a valuable resource for experts"--Summary: "This text is intended for graduate students and advanced undergraduates in physical chemistry, biochemistry, biophysics, bioengineering, polymer and materials science, pharmaceutical chemistry, chemical engineering, and environmental science. Our focus here is on molecular driving forces, which overlaps with--but is not identical to--the subject of thermodynamics. While the power of thermodynamics is its generality, the power of statistical thermodynamics is the insights it gives into microscopic interactions through the enterprise of model-making. A central theme of this book is that making models, even very simple ones, is a route to insight and to understanding how molecules work. A good theory, no matter how complex its mathematics, is usually rooted in some very simple physical idea"--
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Item type Current location Collection Call number Status Date due Barcode Item holds
Book - Borrowing Book - Borrowing Central Library
First floor
Baccah 536.7 DIL (Browse shelf) Available 000043742
Total holds: 0

Includes bibliographical references and index.

Principles of probability --
Extremum principles predict equilibria --
Heat, work, & energy --
Math tools : multivariate calculus --
Entropy & the Boltzmann law --
Thermodynamic driving forces --
The logic of thermodynamics --
Laboratory conditions & free energies --
Maxwell's relations & mixtures --
The Boltzmann distribution law --
The statistical mechanics of simple gases & solids --
What is temperature? : What is heat capacity? --
Chemical equilibria --
Equilibria between liquids, solids, & gases --
Solutions & mixtures --
Solvation & the transfer of molecules between phases --
Physical kinetics : diffusion, permeation, & flow --
Microscopic dynamics --
Chemical kinetics & transition states --
Coulomb's law of electrostatic forces --
The electrostatic potential --
Electrochemical equilibria --
Salt ions shield charged objects in solution --
Intermolecular interactions --
Phase transitions --
Cooperativity : the helix-coil, Ising, & Landau models --
Adsorption, binding, & catalysis --
Multi-site & cooperative Ligand binding --
Bio & nano machines --
Water --
Water as a solvent --
Polymer solutions --
Polymer elasticity & collapse --
Polymers resist confinement & deformation.

"Molecular driving forces, second edition is an introductory statistical thermodynamics text that describes the principles and forces that drive chemical and biological processes. The second edition includes an additional chapter on thermodynamics and two new chapters: (1)"Microscopic dynamics" which explores single molecule experiments; and (2) "Bio and nano machines" which describes the workings of biological molecules including proteins and DNA. New examples and practical applications are integrated throughout the revised and updated text, exploring topics in biology, environmental and energy science, and nanotechnology. It also includes new end-of-chapter problems, and purely mathematical topics are now in appendices. Written in a clear and reader-friendly style, the book provides an excellent introduction to the subject for novices while remaining a valuable resource for experts"--

"This text is intended for graduate students and advanced undergraduates in physical chemistry, biochemistry, biophysics, bioengineering, polymer and materials science, pharmaceutical chemistry, chemical engineering, and environmental science. Our focus here is on molecular driving forces, which overlaps with--but is not identical to--the subject of thermodynamics. While the power of thermodynamics is its generality, the power of statistical thermodynamics is the insights it gives into microscopic interactions through the enterprise of model-making. A central theme of this book is that making models, even very simple ones, is a route to insight and to understanding how molecules work. A good theory, no matter how complex its mathematics, is usually rooted in some very simple physical idea"--

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