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Mathematics for Physical Chemistry, Third Edition, is the ideal text for students and physical chemists who want to sharpen their mathematics skills. It can help prepare the reader for an undergraduate course, serve as a supplementary text for use during a course, or serve as a reference for graduate students and practicing chemists. The text concentrates on applications instead of theory, and, although the emphasis is on physical chemistry, it can also be useful in general chemistry courses. The Third Edition includes new exercises in each chapter that provide practice in a technique immediately after discussion or example and encourage self-study. The first ten chapters are constructed around a sequence of mathematical topics, with a gradual progression into more advanced material. The final chapter discusses mathematical topics needed in the analysis of experimental data. * Numerous examples and problems interspersed throughout the presentations * Each extensive chapter contains a preview, objectives, and summary * Includes topics not found in similar books, such as a review of general algebra and an introduction to group theory * Provides chemistry specific instruction without the distraction of abstract concepts or theoretical issues in pure mathematics
By the time chemistry students are ready to study physical chemistry, they’ve completed mathematics courses through calculus. But a strong background in mathematics doesn’t necessarily equate to knowledge of how to apply that mathematics to solving physicochemical problems. In addition, in-depth understanding of modern concepts in physical chemistry requires knowledge of mathematical concepts and techniques beyond introductory calculus, such as differential equations, Fourier series, and Fourier transforms. This results in many physical chemistry instructors spending valuable lecture time teaching mathematics rather than chemistry. Barrante presents both basic and advanced mathematical techniques in the context of how they apply to physical chemistry. Many problems at the end of each chapter test students’ mathematical knowledge. Designed and priced to accompany traditional core textbooks in physical chemistry, Applied Mathematics for Physical Chemistry provides students with the tools essential for answering questions in thermodynamics, atomic/molecular structure, spectroscopy, and statistical mechanics.
Provides students with concise reviews of mathematical topics used in physical chemistry. By reading these reviews before the mathematics is applied to physical chemical problems, a student will spend less time worrying about the math and more time learning the physical chemistry.
In this third edition, core applications have been added along with more recent developments in the theories of chemical reaction kinetics and molecular quantum mechanics, as well as in the experimental study of extremely rapid chemical reactions. * Fully revised concise edition covering recent developments in the field * Supports student learning with step by step explanation of fundamental principles, an appropriate level of math rigor, and pedagogical tools to aid comprehension * Encourages readers to apply theory in practical situations
This book meets the needs of an introductory course on physical chemistry, and is an ideal choice for courses geared toward pre-medical and life sciences students. A wealth of applications to biological problems is included, along with numerous chapter-ending exercises.
"Physical Chemistry" is a groundbreaking new book that explains core topics in depth with a focus on basic principles, applications, and modern research. The authors hone in on key concepts and cover them thoroughly and in detail - as opposed to the general, encyclopedic approach other books take. Excessive math formalism is avoided to keep readers focused on the most important concepts and to provide greater clarity. Applications woven throughout each chapter demonstrate to readers how chemical theories are used to solve real-world chemical problems in biology, environmental science, and material science. Extensive coverage of modern research and new developments in the field get readers excited about this dynamic branch of science. Fundamental Concepts of Thermodynamics, Heat, Work, Internal Energy, Enthalpy, and the First Law of Thermodynamics, The Importance of State Functions: Internal Energy and Enthalpy, Thermochemistry, Entropy and the Second and Third Laws of Thermodynamics, Chemical Equilibrium, The Properties of Real Gases, The Relative Stability of Solids, Liquids, and Gases, Ideal and Real Solutions, Electrolyte Solutions, Electrochemical Cells, Batteries, and Fuel Cells, From Classical to Quantum Mechanics, The Schrodinger Equation, The Quantum Mechanical Postulates, Using Quantum Mechanics on Simple Systems, The Particle in the Box and the Real World, Commuting and Noncommuting Operators and the Surprising effects of Entanglement, A Quantum Mechanical Model for the Vibration and Rotation of Molecules, The Vibrational and Rotational Spectroscopy of Diatomic Molecules, The Hydrogen Atom, Multielectron Atoms, Examples of Spectroscopy Involving Atoms, Chemical Bonding in H2+ and H2, Chemical Bonding in Diatomic Molecules, Molecular Shapes and Energy Levels for Polyatomic Molecules, Electronic Spectroscopy, Computational Chemistry, Molecular Symmetry, Nuclear Magnetic Resonance Spectroscopy, Probability, The Boltzmann Distribution, Ensemble and Molecular Partition Functions, Statistical Thermodynamics, Kinetic Theory of Gases, Transport Phenomena, Elementary Chemical Kinetics, Complex Reaction Mechanisms. For all readers interested in learning the core topics of physical chemistry.
The purpose of the Third Mexican Meeting on Mathematical and Experimental Physics was to gather together graduate students and practicing scientists in order to provide a perspective on recent developments in the field physical chemistry. The Meeting was divided into three Symposia: (i) Physical Chemistry, (ii) Biological Physics, (iii) Gravitation and Cosmology. Invited lectures were presented by relevant scientists who additionally discussed likely development in their research fields in the near future.