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Course Criteria
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3.00 Credits
A classical or nonquantum mechanically oriented physical chemistry course emphasizing its relationships to the life sciences. Stress is placed on the physiological and molecular biological applications, particularly on irreversible and complex stoichiometric phenomena. Topics covered are chemical thermodynamics, chemical kinetics, enzymatics, collodial phenomena and the theory of solutions.
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3.00 Credits
An introduction to modern concepts of inorganic chemistry, including electronic structures, molecular structures and periodic classification of the elements. Additional topics will be selected from the following areas: bonding theories, quantum theory, solid state theory, transition metal complexes, methods of structural determination, bioinorganic chemistry and instrumental techniques currently used in inorganic chemistry. The experiments chosen are to illustrate inorganic synthetic techniques, methods of purification and methods of characterization. Alternate fall semesters. An introduction to modern concepts of inorganic chemistry, including electronic structures, molecular structures and periodic classification of the elements. Additional topics will be selected from the following areas: bonding theories, quantum theory, solid state theory, transition metal complexes, methods of structural determination, bioinorganic chemistry and instrumental techniques currently used in inorganic chemistry. The experiments chosen are to illustrate inorganic synthetic techniques, methods of purification and methods of characterization. Alternate fall semesters. (3 hrs lecture - 3 hrs laboratory)
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1.00 Credits
This one-semester course includes the basic chemistry and analytical methodology for proteins, enzymes, carbohydrates, lipids, electrolytes, hemecompounds and selected drugs, poisons and hormones. Analytical and organic chemistry are employed to analyze methods of measurement. Laboratory determinations utilize spectrophotometry, chromatography and titrimetry. Spring semester.
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1.00 Credits
Open to senior chemistry majors only, this course will consist of an individual research project designed to give experience in planning and conducting research. The use of modern instruments and techniques will be emphasized. This course is required for an ACS-approved degree. Every semester. Open to senior chemistry majors only, this course will consist of an individual research project designed to give experience in planning and conducting research. The use of modern instruments and techniques will be emphasized. This course is required for an ACS-approved degree. Every semester. (1 hour lecture - 9 hrs laboratory)
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3.00 Credits
The intent of this course is the effective and knowledgeable use of modern chemical instrumentation in order to solve chemical problems. Areas covered will include theory and fundamental concepts of instrumentation with application and interpretation of results. Topics include: analog and digital electronics and electroanalytic, spectroscopic and chromatographic methods. Spring semester.
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2.00 - 3.00 Credits
Laboratories complement the lecture material in CHE 400. Areas of study include: analog and digital voltage and current measurement, digital electronics, laboratory information management system (LIMS), and electroanalytic, spectroscopic and chromatographic techniques. Spring semester. Laboratories complement the lecture material in CHE 400. Experiments include selections of the following techniques and instruments: spectroscopic (UV/VIS, FTIR, photoluminescense, AA, ICPOES, FTNMR), chromatographic (GC, HPLC), mass spectrometric (MALDI-TOF quadrupole MS) and hyphenated instrumental methods (GC-MS). (Two 3-hour laboratories per week)
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3.00 Credits
The course will cover important classes of drugs (analgesics, drugs affecting the central nervous system, the cholinergic and adrenergic system, the immune response, antithrombotic agents, antihypertensives, peptides, prostaglandins) as well as general principles in drug research (bioisosterism, receptors, pharmacokinetics.)
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3.00 Credits
The content of this course may vary from year to year, depending on the interests of students. Aspects of organic chemistry not introduced in CHE 210, 211 will be introduced and topics introduced in CHE 210, 211, will be treated in much greater depth. Examples that could be included are: heterocyclics, natural and synthetic polymers, photochemistry, medicinal chemistry, natural products and molecular orbital symmetry rules. Alternate fall semesters.
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3.00 Credits
This full-year course comprises a study of the major classes of biologically important compounds, their metabolic interconversions and enzymology. Emphasis is on the application of fundamental chemical principles to biological systems.
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3.00 Credits
This full-year course comprises a study of the major classes of biologically important compounds, their metabolic interconversions and enzymology. Emphasis is on the application of fundamental chemical principles to biological systems.
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