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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.
Following in the wake of Chang's two other best-selling physical chemistry textbooks (Physical Chemistry for the Chemical and Biological Sciences and Physical Chemistry for the Biosciences), this new title introduces laser spectroscopist Jay Thoman (Williams College) as co-author. This comprehensive new text has been extensively revised both in level and scope. Targeted to a mainstream physical chemistry course, this text features extensively revised chapters on quantum mechanics and spectroscopy, many new chapter-ending problems, and updated references, while biological topics have been largely relegated to the previous two textbooks. Other topics added include the law of corresponding states, the Joule-Thomson effect, the meaning of entropy, multiple equilibria and coupled reactions, and chemiluminescence and bioluminescence. One way to gauge the level of this new text is that students who have used it will be well prepared for their GRE exams in the subject. Careful pedagogy and clear writing throughout combine to make this an excellent choice for your physical chemistry course.
Gain a practical, working knowledge of the physical chemistry essential for the biological sciences Physical Chemistry for the Biological Sciences is an excellent resource for biochemistry and biology/health science professionals and students who need a basic understanding of thermodynamics, kinetics, hydrodynamics of macromolecules, and spectroscopy in order to explore molecular structure and chemical reactions. Approachable, yet thorough, the book presents physical chemistry in conceptual terms with a minimum of mathematics. Providing the basic knowledge and tools that every biologist should have to understand the quantitative interpretation of biological phenomena, it covers: Fundamentals of thermodynamics and chemical kinetics Fundamentals of spectroscopy and structure determination Ligand binding to macromolecules, hydrodynamics, and mass spectrometry All techniques and concepts are clearly illustrated with relevant applications and examples from the biological sciences. Problems at the end of each chapter reinforce the principles. This is a succinct reference for practitioners, including bioorganic chemists, medicinal chemists, biochemists, pharmaceutical chemists, biologists, and professionals in fields such as pharmaceuticals, agriculture, and biotechnology. It's also an excellent textbook for graduate and upper-level undergraduate students in biochemistry, biology, and related fields.
Chang's newest text is intended for use in a one-semester introductory course in physical chemistry for students of the biosciences. The author emphasizes the understanding of physical concepts rather than focussing on precise mathematical development or on actual experimental details. Only basic skills of differential and integral calculus are required to understand the equations. The extensive array of end of chapter problems have both physicochemical and biological applications, and a detailed Solutions Manual is available.
Chemistry in the last century was characterized by spectacular growth and advances, stimulated by revolutionary theories and experimental breakthroughs. Yet, despite this rapid development, the history of this scientific discipline has achieved only recently the status necessary to understand the effects of chemistry on the scientific and technological culture of the modern world. This book addresses the bridging of boundaries between chemistry and the other "classical" disciplines of science, physics and biology as well as the connections of chemistry to mathematics and technology. Chemical research is represented as an interconnected patchwork of scientific specialties, and this is shown by a mixture of case studies and broader overviews on the history of organic chemistry, theoretical chemistry, nuclear- and cosmochemistry, solid state chemistry, and biotechnology. All of these fields were at the center of the development of twentieth century chemistry, and the authors cover crucial topics such as the emergence of new subdisciplines and research fields, the science-technology relationship, and national styles of scientific work. This monograph represents a unique treasure trove for general historians and historians of science, while also appealing to those interested in the theoretical background and development of modern chemistry.

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