Sponsler earned his PhD from the California Institute of Technology, followed by postdoctoral study at the University of California, Berkeley before joining Syracuse University, where he is Associate Professor Eric V. Anslyn received his PhD from the California Institute of Technology. After completing post-doctoral work at Columbia University, he joined the faculty at the University of Texas at Austin, where he is now the Norman Hackerman Professor of Chemistry and University Distinguished Teaching Professor Dennis A. Dougherty received his PhD from Princeton University, followed by a year of postdoctoral study at Yale University before joining the California Institute of Technology, where he is now George Grant Hoag Professor of Chemistry.
This Student Solutions Manual, which provides complete solutions to all of the nearly 600 exercises in the accompanying textbook, will encourage students to work the exercises, enhancing their mastery of physical organic chemistry. When used properly by students to compare their solutions with the detailed solutions provided in the manual, it will serve as an excellent tool for sharpening skills and encouraging a deeper understanding of the concepts that are covered. Like the accompanying text by Anslyn and Dougherty, this manual also includes Going Deeper highlights on selected topics, where students can explore exceptions to the rule, discover surprising connections between topics, and gain insights into practical aspects of the material. Problem-solving strategies will be enhanced by students' coordinated use of the textbook and this manual. To the Student p. V Molecular Structure and Thermodynamics Introduction to Structure and Models of Bonding p. 1 Strain and Stability p.
17 Solutions and Non-Covalent Binding Forces p. 45 Molecular Recognition and Supramolecular Chemistry p. 51 Acid-Base Chemistry p. 64 Stereochemistry p.
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74 Reactivity, Kinetics, and Mechanisms Energy Surfaces and Kinetic Analyses p. 104 Experiments Related to Thermodynamics and Kinetics p. 121 Catalysis p. 139 Organic Reaction Mechanisms Part 1: Reactions Involving Additions and/or Eliminations p. 155 Organic Reaction Mechanisms Part 2: Substitutions at Aliphatic Centers and Thermal Isomerizations/Rearrangements p.
181 Organotransition Metal Reaction Mechanisms and Catalysis p. 206 Organic Polymer and Materials Chemistry p. 219 Electronic Structure: Theory and Applications Advanced Concepts in Electronic Structure Theory p.
232 Thermal Pericyclic Reactions p. 279 Photochemistry p. 303 Electronic Organic Materials p. 323 Pushing Electrons p. 340 Table of Contents provided by Ingram.
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