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Course Criteria
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4.00 Credits
A continuation of the properties, reactions, and spectroscopic analysis of the major classes of carbon compounds. The concepts of chemical structure and functional group will serve as a basis for understanding organic reaction mechanisms and organic synthesis. Laboratory preparation and analysis of a variety of organic compounds. Lecture: 3 hours. Laboratory: 3 hours.
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5.00 Credits
Theory and laboratory procedures in typical volumetric, colorimetric, and gravimetric analysis. Lecture: 3 hours. Laboratory: 6 hours
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4.00 Credits
States and structure of matter; thermodynamics; and thermochemistry. Lecture: 2 hours. Laboratory: 4 hours.
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1.00 Credits
Introduces the chemical literature and introduces library/online searching skills. Examines the structure of various types of scientific articles and develops the ability to critically analyze a peer-reviewed journal article. Lecture: 1 hour.
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3.00 Credits
The study of basic chemical and physical principles in living systems, bioenergetics, enzyme kinetics, and the metabolism of carbohydrates, lipids, amino acids/proteins and nucleic acids. Lecture: 3 hours.
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3.00 Credits
An in-depth study of the principles and mechanisms underlying bioenergetics, and the integration and hormonal control of the major metabolic pathways. Other topics include the metabolism of fasting/eating, stress, diabetes and alcoholism, free radicals and antioxidants, DNA repair, biochemistry of apoptosis, receptors and transsignaling, lipoprotein/platelet metabolism and cardiovascular risk, and various aspects of clinical chemistry.
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4.00 Credits
Properties and structure of gases, thermodynamics, chemical equilibrium, phase equilibrium, solutions, electrochemistry. Lecture: 3 hours. Laboratory: 3 hours.
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4.00 Credits
Structure of matter, quantum theory, bonding, atomic and molecular spectroscopy, kinetics. Lecture: 3 hours. Laboratory: 3 hours.
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2.00 Credits
This lecture course is designed to provide the student with the knowledge to understand the fundamental principles and biochemical mechanisms of pharmacological applications, such as drug dosage, clearance, and metabolic action. Each student will become familiar with the complex mechanisms of action and clinical applications of a variety of the major categories and classes of pharmaceuticals, using illustrative prototypical agents. This course will offer both "high yield" facts and a sufficient framework for critical thinking and analysis, rather than just memorization.
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1.00 Credits
Investigation of the major laboratory techniques used in the study of the physical, chemical, and catalytic properties of biological molecules. Topics include protein chromatography, protein and nucleic acid electrophoreis, enzyme catalysis, PCR, and DNA sequencing. Laboratory: 3 hours.
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