This course covers nomenclature, reactions, and structure of aliphatic hydrocarbons and alcohols and introduces carbonyl chemistry, structural determination, organic spectroscopy, reaction mechanisms, stereochemistry, and multi-step syntheses. Laboratory emphasizes separation, reactions, structural determination, and physical characteristics of organic compounds. Three hours of lecture and four hours of laboratory per week. CHEM 201 is the organic foundation requirement for the American Chemical Society Chemistry and Biochemistry majors.
This course is the second of a two-semester sequence in organic chemistry that will cover functional groups ranging from ethers to biological macromolecules. Within each functional group, we will explore topics in nomenclature, physical and chemical properties, reactions, reaction mechanisms, and spectroscopic analysis.
This is a basic inorganic chemistry course with an extension of general chemistry supportive of the lab experiences. Lecture will emphasize atomic and molecular structure, molecular orbital theory, chemical equilibria, acid-base chemistry, electrochemistry, solid-state structure and the theoretical basis of complex ion chemistry. Laboratory will be centered on systematic identification of inorganic cations and anions, with some experiences in kinetics and electrochemistry. CHEM 222 is the inorganic foundation requirement for the American Chemical Society Chemistry and Biochemistry majors.
This course covers fundamental and applied topics of modern and classical analytical methods. Lecture emphasizes statistical analysis of data, method development, equilibrium, electrochemistry, and chromatography. The laboratory experience includes a mix of wet chemical and instrumental methods with an emphasis on careful and precise quantitative work. Three hours of lecture and four hours of laboratory per week. CHEM 242 is the analytical foundation requirement for the American Chemical Society Chemistry and Biochemistry majors.
Each offering enables students to develop a solid foundation in the theoretical aspects and operating principles, as well as develop hands-on proficiency in the operation of the featured instrument and interpretation of the data. Instrument rotation includes: Gas Chromatography - Mass Spectrometer, Raman Spectrometer, Nuclear Magnetic Resonance Spectrometer, Fourier Transform Infrared Spectrometer, Atomic Absorption Spectrometer, Ultraviolet-Visible Spectrometer, High Performance Liquid Chromatograph, X-Ray Fluorescence Spectrometer, Fluorometer, Differential Scanning Calorimeter and Thermogravimetric Analyzer. Instruments will be added as they are acquired.
Students on an F-1 visa are eligible to work off campus to provide additional experience so long as the employment relates directly to the student's major area of study. The practical experience gained outside the traditional classroom supplements the theoretical and/or applied knowledge as a part of the student's coursework. The registration process for this course must be completed every term (including summers), as students must have their work authorization reissued each term to ensure continued enrollment. Jobs must be approved and verified by the International Programs Office before work may begin.
This course offers the opportunity to engage in experimental research with a faculty mentor. One credit hour will require four hours of laboratory work per week for the semester plus a comprehensive report, a departmental seminar, and if appropriate a presentation at a scientific meeting. This course designation is normally not used to replace a traditional course.
Permission of the Instructor