|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
0.00 Credits
Independent research directed by faculty member to be arranged during semester preceding registration. Written report and participation in a department poster session required. For BS Chemistry majors, two semesters of CHM 393 are required (8 credits). Special application required.
-
0.00 Credits
No course description available.
-
0.00 Credits
A research course designed by individual arrangement with a faculty member. Plan on spending at least the equivalent of two afternoons (eight hours) a week in the lab. The basis for determining your grade for the research course is worked out between the student and the professor as part of registration for independent research. Special application required.
-
0.00 Credits
A research course designed by individual arrangement with a faculty member. Plan on spending at least the equivalent of two afternoons (eight hours) a week in the lab. The basis for determining your grade for the research course is worked out between the student and the professor as part of registration for independent research. Special application required.
-
4.00 Credits
This course explores how fundamental interactions determine the structure, dynamics, and reactivity of proteins and nucleic acids. Examples are taken from the current literature with emphasis on thermodynamic, kinetic, theoretical, and site-directed mutagenesis studies. Offered spring - odd years.
-
2.00 Credits
2 Credits - Students will learn the basic principles of X-ray diffraction, symmetry, and space groups. Students will also experience the single crystal diffraction experiment, which includes crystal mounting, data collection, structure solution and refinement, and the reporting of crystallographic data. Weekly assignments: problem sets, simple lab work, or computer work. (Spring, 2nd half of semester.)
-
2.00 Credits
2 credits - An introduction to NMR spectroscopy. Collection, processing, and interpretation of homonuclear and heteronuclear 1D and multidimensional spectra will be covered. Topics to be discussed include chemical shifts, relaxation, and exchange phenomena. Examples from organic, inorganic, and biological chemistry will be used. (Spring, 1st half of semester).
-
2.00 Credits
2 credits - Mechanisms in organometallic reactions. Applications of organometallic compounds in homogeneous catalysis, polymerization, metathesis. (Spring, 1st half of semester).
-
2.00 Credits
2 credits. The modern methods and tools employed for the determination of the structure of complex organic molecules will be discussed. Among the areas discussed are basic NMR, IR, UV and mass spectroscopy. Problem solving techniques will be illustrated and problem solving skills developed by means of problem sets and class examples. (Spring, 2nd half semester).
-
4.00 Credits
Structure and reactivity; kinetic, catalysis, medium effects,transition state theory, kinetic isotope effects, photochemistry, reactive intermediates, and mechanisms. Readings in text and problem sets (about four during the semester). Two 75 minutes lectures per week.
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2024 AcademyOne, Inc.
|
|
|