This book explains how to identify organic compounds through step-by-step instructions. Topics include elemental analysis, solubility, infrared, nuclear magnetic resonance and mass spectra; classification tests; and preparation of a derivative.
This laboratory textbook provides support for guided-inquiry and design-based experiments and projects, as well as for traditional lab experiments. It offers extensive coverage of spectroscopic techniques and a strong emphasis on safety issues.
The book's experiments cover traditional organic reactions and syntheses, the isolation of natural products, and molecular modeling and include project-based experiments and experiments that have a biological or health science focus.
In this laboratory textbook for students of organic chemistry, experiments are designed to utilize microscale glassware and equipment. The textbook features a large number of traditional organic reactions and syntheses, as well as the isolation of natural products and experiments with a biological or health sciences focus. The organization of the text is based on essays and topics of current interest. The lab manual contains a comprehensive treatment of laboratory techniques.
This book presents the basic techniques of the organic chemistry laboratory with an emphasis on doing the work correctly the first time. New to this edition are discussions on safety in the laboratory with new consideration of the addition of such technology as the iPad, Nook, Kindle, and even text messaging. Updated discussion is added on Microscale; a number of NMR spectra have been added, with basic interpretation and suggestions on presentation of the data; and lastly, presentation of a more modern outline of the instrumentation of HPLC is included.
If you would like to browse the bookshelves, or by call number in Articles, Books & More, most of the relevant books have a QD261 call number and can be found on the 3rd Floor of the Carlson Library
Gain a deeper understanding of reactions, mechanisms, and synthetic analysis and their practical applications as Organic Chemistry breaks down topics using a sensible organization based on the concept that an organic molecule's structure will determine its function.
With authors who are both accomplished researchers and educators, Vollhardt and Schore's Organic Chemistry takes a functional group approach with a heavy emphasis on understanding how the structure of a molecule determines how that molecule will function in chemical reactions. By understanding the connection between structure and function, students will be better prepared to understand mechanisms and solve practical problems in organic chemistry.
Learn how to write resonance structures and become comfortable with bond-making and bond-breaking steps in organic mechanisms. A paper-on-pencil approach uses active involvement and repetition to teach you to properly push electrons to generate resonance structures and write organic mechanisms with a minimum of memorization.
Intended for students of intermediate organic chemistry, this text shows how to write a reasonable mechanism for an organic chemical transformation. The discussion is organized by types of mechanisms and the conditions under which the reaction is executed, rather than by the overall reaction as is the case in most textbooks. Each chapter discusses common mechanistic pathways and suggests practical tips for drawing them. Worked problems are included in the discussion of each mechanism, and "common error alerts" are scattered throughout the text to warn readers about pitfalls and misconceptions that bedevil students.
If you would like to browse the bookshelves, or by call number in Articles, Books & More, most of the relevant books have a QD251 call number and can be found on the 3rd Floor of the Carlson Library