Synopses & Reviews
Succeed in the course with this student-friendly, proven text. Designed throughout to help you master key concepts and improve your problem-solving skills, CHEMISTRY, Seventh Edition includes a running margin glossary, end-of-chapter in-text mini study guides, a focus on "how to" skills, and more in-chapter examples and problems than any text on the market. To help you understand reaction mechanisms, the authors offset them in a stepwise fashion and emphasize similarities between related mechanisms using just four different characteristics: breaking a bond, making a new bond, adding a proton, and taking a proton away. Thoroughly updated throughout, the book offers numerous biological examples for premed students, unique roadmap problems, a wide range of in-text learning tools, and integration with an online homework and tutorial system, which now includes an interactive multimedia eBook. Available with InfoTrac Student Collections http://gocengage.com/infotrac.
Review
"I find that the BFIA text is very sound pedagogically. Essential concepts are carefully and intuitively explained. Take, for example, the essential survival skill of using curved arrow notation and applying this to the understanding or reaction mechanisms. The authors break this skill down into its simplest components and build from there. This starts with the definition of an electron source and an electron sink. From these definitions, students readily grasp the physical driving force behind the flow of electrons in organic reactions in addition to mastering the use of curved arrow notation. The "how to" sections provide an abundance of detail and effectively break traditionally challenging concepts into logical, readily digested portions. Finally, the sections entitled "Chemical Connections" provide very relevant, up-to-date tie-ins of the subject material to matters of chemical, biological and pharmacological interest."
Review
"I find the problem set at the end of each chapter superb. I believe this is a culmination of hard work over the years by the authors in this area. His treatment of resonance is quite good but the Organometallics covered in Chapter 24 is also second to none! These are the strongest features of the book."
About the Author
William H. Brown is emeritus professor of chemistry at Beloit College, where he was twice named Teacher of the Year. His teaching responsibilities include organic chemistry, advanced organic chemistry, and, more recently, special topics in pharmacology and drug synthesis. He received his Ph.D. from Columbia University under the direction of Gilbert Stork and did postdoctoral work at California Institute of Technology and the University of Arizona. He is a coauthor on ORGANIC CHEMISTRY, 10e (Cengage Learning). Brent L. Iverson received his Ph.D. from Stanford University in 1982 and currently teaches at University of Texas, Austin. He is a distinguished teacher and respected researcher. Iverson's research group has developed methods for recombinant antibody or enzyme cloning and has directed its evolution. In collaboration with the Georgiou group, he pioneered a novel E. coli surface expression/FACS selection technology that has allowed the group to enhance antibody affinity. Eric Anslyn is the Norman Hackerman Professor of Chemistry at The University of Texas at Austin. Highly respected in organic chemistry, he earned his Ph.D. from the California Institute of Technology and has won numerous teaching awards. Anslyn's research focuses on the cutting-edge area of bioorganic chemistry. Christopher S. Foote received his B.S. in 1957 from Yale University and his Ph.D. in 1962 from Harvard University. His scholarly credits include Sloan Fellow 1965-1967; Guggenheim Fellow 1967-1968; ACS Baekland Award, 1975; ACS Cope Scholar, 1994; Southern California Section ACS Tolman Medal, 1996; President, American Society for Photobiology, 1988-1989; and Senior Editor, ACCOUNTS OF CHEMICAL RESEARCH. He was Professor of Chemistry at UCLA.
Table of Contents
1. Covalent Bonding and Shapes of Molecules. 2. Alkanes and Cycloalkanes. 3. Stereochemistry and Chirality. 4. Acids and Bases. 5. Alkenes. Primer I: Reaction Mechanisms 6. Reactions of Alkenes. 7. Alkynes. 8. Haloalkanes, Halogenation, and Radical Reactions. 9. Nucleophilic Substitution and B-Elimination. 10. Alcohols. 11. Ethers, Sulfides, and Epoxides. 12. Infrared Spectroscopy. 13. Nuclear Magnetic Resonance Spectroscopy. 14. Mass Spectrometry. 15. Introduction to Organometallic Compounds. 16. Aldehydes and Ketones. 17. Carboxylic Acids. Primer II: Carboxylic Acid Derivative Reaction Mechanisms. 18. Functional Derivatives of Carboxylic Acids. 19. Enolate Anions and Enamines. 20. Dienes, Conjugated Systems, and Pericyclic Reactions. 21. Benzene and the Concept of Aromaticity. 22. Reactions of Benzene and Its Derivatives. 23. Amines. 24. Catalytic Carbon-Carbon Bond Formation. 25. Carbohydrates. 26: Lipids. 27. Amino Acids and Proteins. 28. Nucleic Acids. 29. Organic Polymer Chemistry. Appendices: 1. Thermodynamics and the Equilibrium Constant. 2. Major Classes of Organic Acids. 3. Bond Dissociation Enthalpies. 4. Characteristic 1H-NMR Chemical Shifts. 5. Characteristic 13C Chemical Shifts. 6. Characteristic IR Absorption Frequencies. 7. Electrostatic Potential Maps. 8. Summary of Stereochemical Terms. 9. Summary of the Rules of Nomenclature. 10. Common Mistakes in Arrow Pushing. 11. Organic Chemistry Roadmaps. GLOSSARY G-1. INDEX I-1.