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Course Criteria
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3.00 Credits
This course gives students a broad perspective of polymer science and its application in everyday life. The course has three major components: a survey of polymers, polymer synthesis and aspects of polymer physics. Prerequisites: CM 2214 and CM 2614 or CM 2514.
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3.00 Credits
An introduction to polymer science. The course includes principles of various polymerization methods, characterization and physical chemistry of polymers. Includes laboratory. Prerequisites: CM 2214 and CM 2514 or CM 2614.
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4.00 Credits
each 4 credits Original investigations by student under guidance of staff members. Careful literature research required before inception of laboratory work; continued reference to chemical literature expected and active participation in conferences and seminars scheduled as work progresses. A written report is required. Fulltime students are expected to register for 8 credits of thesis during senior year. Research (lab) fee required. Prerequisites: CM 5011 and CM 5040.
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4.00 Credits
each 4 credits Original investigations by student under guidance of staff members. Careful literature research required before inception of laboratory work; continued reference to chemical literature expected and active participation in conferences and seminars scheduled as work progresses. A written report is required. Fulltime students are expected to register for 8 credits of thesis during senior year. Research (lab) fee required. Prerequisites: CM 5011 and CM 5040.
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3.00 Credits
A hands-on introduction to methods and tools for searching. Includes both electronic (CD-ROM and online) as well as print databases. Students may emphasize topics related to their research. Required of all BS students in biomolecular science.
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3.00 Credits
1:0:0:0 Discussion of problems of health and safety arising in chemical laboratories. How to work safely with dangerous chemicals. This course must be completed by both graduate and undergraduate chemistry students before they undertake laboratory research. Prerequisite: None. Co-requisite: None.
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3.00 Credits
Introduces students to principles and applications of modern molecular modeling and simulations methods, using commercially available software packages on powerful computer workstations. Algorithms for visualization and prediction of structural and physical properties of molecules and molecular aggregates are taught, based on the principles of quantum, classical and statistical mechanics, which will be reviewed in a mathematically simplified form. The accompanying laboratory part focuses on acquiring practical skills in application of commercial software packages to illustrative problems in physical chemistry, chemical engineering, biology and medicine. Prerequisites: Completion of core undergraduate courses in mathematics and science (grade C or better) in CM, CH, ME, EE, CS, PH, CE or equivalent.
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3.00 Credits
Exciting new analytical methods used in biochemistry and biotechnology today, such as atomic force microscopy, capillary electrophoresis, surface plasmon resonance, microarrays, etc. The course is based directly on the current scientific literature. Prerequisite: Adviser's approval.
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3.00 Credits
6:0:NC General topics covered include the fundamentals of programming, software development practices, and problem solving using the C++ programming language. Other topics include compiling, running and debugging a program, program testing, documentation, variables and data types, assignments, arithmetic expressions, input and output, top-down design and functions, and conditionals and loops.
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3.00 Credits
An introduction to computer programming and problem solving. General topics covered include the fundamentals of programming, good software development practices and solving problems using computer programming. Specific topics include compiling, running and debugging a program, program testing, documentation, variables and data types, assignments, arithmetic expressions, input and output, topdown design and procedures, the random number generator, conditionals and loops functions, arrays, and an introduction to classes and object oriented programming. Grade of C- or better required of undergraduate computer science and computer engineering majors.
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