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CHEM 343: Instrumental Chemistry II
0.50 Credits
Willamette University
Instrumental methods for qualitative and quantitative chemical analysis. Topics include chromatography (GC, HPLC, SFC), direct potentiometry, voltammetric techniques, radiochemical analysis, special topics. Prerequisite: CHEM 342 Offering: Fall Instructor: Goodney
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CHEM 343 - Instrumental Chemistry II
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CHEM 344: Experimental Chemistry I
0.50 Credits
Willamette University
Theory and practice of chemical analysis in the laboratory. Students design and carry out qualitative and quantitative analysis on chemical systems using atomic and molecular spectroscopy. Corequisite: CHEM 342 Offering: Spring Instructor: Goodney, Holman, Williamson
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CHEM 344 - Experimental Chemistry I
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CHEM 345: Experimental Chemistry II
0.50 Credits
Willamette University
Theory and practice of chemical analysis in the laboratory. Students design and carry out qualitative and quantitative analysis on chemical systems using electrochemical, chromatographic, and radiochemical techniques. Corequisite: CHEM 343 Offering: Fall Instructor: Goodney, Holman
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CHEM 345 - Experimental Chemistry II
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CHEM 346: Experimental Biochemistry I
0.50 Credits
Willamette University
Theory and practice of chemical and biochemical analysis in the laboratory. Students design and carry out qualitative, quantitative, thermodynamic, and kinetic analyses using electrophoretic, electrochemical, radiochemical, and spectroscopic techniques. Biochemical systems explored include tastant and odorant molecules, protein structure and ligand binding, and enzyme catalysis. Corequisites: CHEM 342 and CHEM 351 Offering: Spring Instructor: Goodney, Silverstein, Kirk
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CHEM 346 - Experimental Biochemistry I
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CHEM 347: Experimental Biochemistry II
0.50 Credits
Willamette University
Theory and practice of chemical and biochemical analysis in the laboratory. Students design and carry out qualitative, quantitative, thermodynamic, and kinetic analyses using electrophoretic,electrochemical, radiochemical, and spectroscopic techniques. Biochemical systems explored include tRNA structure, dynamics, and ligand binding, as well as biosensor synthesis and analysis. Corequisites: CHEM 343 and CHEM 346 Offering: Fall Instructor: Goodney, Silverstein, Kirk
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CHEM 347 - Experimental Biochemistry II
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CHEM 351: Biochemistry
1.00 Credits
Willamette University
A comprehensive introduction to biochemistry, stressing a chemical understanding of life processes and how molecules interact in cells and organisms. Discussion of important biomolecules (e.g., proteins, lipids, carbohydrates) and their dynamic interactions: how enzymes speed up reactions, how muscles contract, how cells use and transduce energy, how cells receive and transmit signals, and how flaws in these processes can lead to disease. The underlying chemistry (organic mechanisms, thermodynamics) involved in these molecular interactions will be closely examined. Prerequisite: CHEM 226 or CHEM 228; BIOL 130 recommended Offering: Every semester Instructor: Silverstein
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CHEM 351 - Biochemistry
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CHEM 363: Inorganic Chemistry:Transition Metals
0.50 Credits
Willamette University
The course begins with a detailed examination of atomic structure and periodic trends, followed by an investigation of the structures, spectra, and magnetic properties of transition metal complexes using a crystal field theory approach. A study of inorganic reaction mechanisms and inorganic acid-base theories will allow a comprehensive approach to understanding metals in biological systems, including metalloprotein catalysis and metal-based pharmaceutical agents. Corequisite: CHEM 321 or consent of instructor Offering: Fall Instructor: Holman
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CHEM 363 - Inorganic Chemistry:Transition Metals
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CHEM 364: Inorganic Chemistry:Bonding Theories
0.50 Credits
Willamette University
The course begins with an introduction to symmetry and group theory. The remainder of the course includes an in-depth study of several theories of covalent bonding: valence shell electron pair repulsion theory, valence bond theory, molecular orbital theory, and ligand field theory. Applications will complement theory. For example, photoelectron spectroscopy and X-ray absorption spectroscopy can be used to predict molecular orbital diagrams and uncover details of the metal-ligand bonds. Topics in solid state chemistry will also be covered, including ionic and metallic bonding, band theory and conductivity. Prerequisite: CHEM 363; Corequisite: CHEM 322 or consent of instructor Offering: Spring Instructor: Holman
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CHEM 364 - Inorganic Chemistry:Bonding Theories
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CHEM 430: Advanced Topics in Chemistry
0.50 - 1.00 Credits
Willamette University
An in-depth study of topics selected for their interest and relevance to modern Chemistry. Topics may be chosen from the areas of analytical, physical, inorganic, organic, biological, polymer chemistry, computational chemistry, or history and philosophy of chemistry. Taught in a seminar format. Offering: Spring Instructor: Staff
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CHEM 430 - Advanced Topics in Chemistry
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CHEM 431: Advanced Topics in Biochemistry
1.00 Credits
Willamette University
An in-depth study of selected topics in modern biochemistry. Topics will be chosen from the areas of bioinorganic, bioorganic, biophysical, or bioenergetic chemistry, and may include heavy metal toxicity, bioinorganic electron transfer, photosynthetic electron transfer, nucleic acid or carbohydrate chemistry, drug design, membrane transport, neurochemistry, or cell signaling. Prerequisite: CHEM 351 Offering: Spring Instructor: Holman, Kirk, Silverstein
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CHEM 431 - Advanced Topics in Biochemistry
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