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Course Criteria
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3.00 Credits
Prerequisite: "C" or better grade in CHEM 3361 . An exploration of the process and practice of chemical research that leads to publication. An introduction to resources and methods for searching the chemical literature.
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3.00 Credits
Prerequisite: "C" or better grade in CHEM 3501 or CHEM 3500 . This course covers fundamentals of pharmacology such as drug discovery/development and phar-macokinetics, with emphasis given to the role of chemistry and biochemistry in these areas. A main focus of the course will be how drugs function at the molecular level. Examples will be chosen from drugs that target enzymes, receptors, and DNA.
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3.00 Credits
This course describes the major techniques used in the analysis of pharmaceuticals following the United States Pharmacopeia. The topics include quality control, physical and chemical properties of drug molecules and various chemical analysis including classical methods, spectroscopy, and chromatography.
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1.00 Credits
This course provides hands-on experience in the laboratory of the major techniques used in the analysis of pharmaceuticals following the United States Pharmacopeia. The laboratory experiments involve the analysis of drug molecules by dissolution, titration, molecular spectroscopy, atomic spectroscopy, GC, and HPLC including methods of extraction and thermal methods of analysis.
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3.00 Credits
Prerequisite: "C" or better grade in MATH 2202 and CHEM 2800 . This is a one semester course in physical chemistry taken by students majoring in bio-chemistry, general chemistry, forensic chem-istry and chemistry education. The course provides a survey of thermodynamics, chemi-cal equilibria, and kinetics. It also includes an introduction to the quantum mechanical prin-ciples important in understanding molecular spectroscopy and molecular modeling.
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3.00 Credits
Prerequisite: "C" or better grade in CHEM 3000, CHEM 3601 . Introduction to inorganic chemistry for the profes-sional degree. Topics include atomic structure, bonding, coordination chemistry, nomenclature, reaction mechanisms, symmetry, structure, and a general survey of descriptive inorganic chemistry.
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3.00 Credits
In-depth study of concepts and theories of inorganic chemistry. Topics include atomic structure, bonding, coordination chemistry, reaction mechanisms, symmetry, and a general survey of descriptive inorganic chemistry.
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1.00 Credits
Corequisite: CHEM 3100 or 3120. Laboratory course to introduce the concepts and practices of inorganic synthetic chemistry. Emphasis is on the synthesis, characterization, reactivity, structure, and other properties of the inorganic compounds and complexes. The course introduces standard methodology for the synthesis and characterization of known com-pounds. Team research projects then incorporate the same methods for the synthesis and charac-terization of new compounds yet to be reported in the literature.
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3.00 Credits
Prerequisite: "C" or better grade in CHEM 3050. Corequisite: CHEM 3110L . General aspects of bioinorganic chemistry will be discussed including physical methods, roles of metals in biological systems, classes of metallopro-teins and metalloenzymes, and metals in medicine. The primary focus is on understanding how metals make a variety of biological functions possible through their unique properties.
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1.00 Credits
Corequisite: CHEM 3110. The aim of this laboratory is to integrate con-cepts from biology and inorganic chemistry by performing experiments that lie at the interface of these two disciplines. Lecture topics will be reinforced through experiments covering synthe-sis and analysis of bioinorganic model com-pounds, enzyme activity as it relates to metal availability, and metal therapeutics.
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